Variable Frequency Intelligent Controller VarVaV equency ... · The controller is specially...

Variable Frequency Intelligent Controllerfor Vibratory Feeder

SDVC34-SeriesInstruction Book

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SDVC34 SeriesVariable Frequency Intelligent Controller for Vibratory Feeder

Preface

We appreciate your choosing brand Vibratory Feeder Controller.

This instruction book includes detailed steps and explanations of installing, parametersetting, mode setting and trouble shooting of the controller. Please read this instruction bookcarefully before operating the controller and keep it properly.

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Notice�

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Never hot plug power cables nor touch the power sockets and connector of the controller in

any case to avoid electrical shock or other accidents.

Never connect the controller to 380VAC power which may cause unrecoverable damage.

Choose products that are designed for 380VAC instead when needed.

Never switch the input power of the controller simply by cutting off power supply through

a relay, a PLC or other devices, service life of the controller will be reduced severely. Output

of the controller can also be turned on/off via C Ports or E Ports.

Never operate the controller under the conditions that beyond its designed limits.

Operate the controller in accordance with this instruction book strictly. We will not

assume any civil or criminal liability if the equipment damage or personal injury is caused by

incorrect operation.

Never open the controller shell to avoid electric shock. Contact CUH if the controllerbreaks down.Never try to repair the controller yourself which may void the warranty.

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Operating Environment

Operating Environment

Please follow the instructions below to ensure better performance and longer lifetime of thecontroller

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Well-ventilated environment

Firmly fixed to avoid self vibration

Operate within the temperature range of -10 °C to 40 °C

Keep away from droplets, steam, dust and especially oily dust

Keep away from corrosive or flammable gas and liquid

Keep away from floating dust and metal particles

Keep away from electromagnetic interference


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Chapter I Features

Chapter II Installation Guide

Descriptions of the Indicators 4

3 2 Descriptions of the Buttons 5

3.3 Descriptions of I/O Interfaces and Accessory

3 4 Descriptions of Signal Control Ports 6

4 2

4 4

.

.

.

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1

2

5

7

Common Parameters 7

Basic Parameters 7

4.3 Advanced Parameters 8

Auto/ Sync Parameters

10

5.1 Manual Mode 10

5.1.1 Output Voltage Parameter U Adjustment in Manual Mode 11

5.1.2 Output Frequency Parameter E Adjustment in Manual Mode 11

5.2 Auto Mode 12

5.2.1 Vibration Sensor Installation 12

5.2.2 Feed Speed Parameter AAdjustment in Auto Mode 13

5.2.3 Auto Frequency Measuring in Auto Mode 13

5.2.4 Explanation of Auto/Sync Parameters 14

16

16

5.3.2 Semi Auto Mode Setup 16

5.3.3 Feed Speed Parameter AAdjustment in Semi-Auto Mode 16

5.3.4 Output Frequency Parameter E Adjustment in Semi-Auto Mode 17

5.4 Sync Mode 18

5 .4.1 Connection Method of the SyncSignalWire between Master and Slave Controllers 19

5.4.2 Sync Mode Applications 20

5.4.3 Explanation of Some Auto/Sync Parameters 24

25

6.1 C Ports ON/OFF Control 25

6.1.1 Connection Method of Different Kinds of Switch Sensors and PLC to C Ports 25

6.1.2 C Ports ON Delay Parameter and C Ports OFF Delay Parameter L 30

6.1.3 C Ports ON/OFF Control Logical Relation Parameter 2 31Γ

Chapter IV Parameter Adjustment

Chapter V Operating Mode

Chapter VI Signal Control

9

-

-

Chapter III Components Descriptions 4

3 1

4 1

.

.

5.3 Semi-Auto Mode

5.3.1 Vibration Sensor Installation

Contents

L

H CUHDescriptions of the IDescriptions of the

3 2 Descriptions of t3 2 Descriptions of

3.3 Descriptions3.3 Descriptions

3 4 Descriptio3 4 Descripti

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5.3.2 Semi Auto Mode.3.2 Semi Auto Mode

5.3.3 Feed Speed Pa3.3 Feed Spee

5.3.4 Output Fre5.3.4 Output Fre

5.4 Sync Mode5.4 Sync Mode

5 .4.1 Conn4.1 C

5.4.2 S5.4.2 S

5.45 4

uto Modeto Mode

1 Vibration Sensor InstVibration Sensor Ins

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r U Adjustment in ManuUAdjustment in Man

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Switch Sensors and PLCwitch Sensors and PL

C Ports OFF Delay ParaPorts OFF Delay Para

l Relation Parameter 2Relation Parameter 2

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1616

1616

166

1717

1818

Slave Controllers 19Slave Controllers 19

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6.2 E Ports ON/OFF Control 32

6.2.1 Connection Method of Different Kinds of Switch Sensors and PLC to E Ports 32

6.2.2 E Ports ON Delay Parameter - and E Ports OFF Delay Parameter L 33

6.2.3 E Ports ON/OFF Control Logical Relation Parameter 7 34

35

6.3.1 Logical Relation Parameter of C Ports and E Ports 35

6.3.2 Switch Sensor Type Parameter A 36

6.3.3 Whether or not output of the controller is controlled by ON/OFF Control Signal

Parameter 4 36

6.4 Remote Speed Control 37

39

6.6 RS485 Communication 40

6.6.1 RS485Communication Address Parameter 40

6.6.2 RS485 Communication Baud Rate Parameter 40

6.6.3 RS485 Communication Protocol 40

6.7 24V DC Control Output 41

6.7.1 Connection Method of the 24V DC Control Output 41

6.7.2 Logical Relation of the 24V DC Control Output 42

43

7.1 Automatic Voltage Regulation: 43

7.2 Short-Circuit Protection 43

7.3 Overcurrent Protection 43

7.4 Overheat Protection 43

7.5 Overload Protection 43

7.6 Overvoltage Protection 43

44

4

48

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Γ

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6.3 Common Parameters of C Ports and E Ports

Γ

Chapter VII Security Functions

∏

Appendix 44

Appendix A: Dimensions

Appendix B: Electrical Specification 7

Appendix C: Troubleshooting Suggestions and Error Explanations Explanations

Explanations

6.5 Storage and Output of Preset Speeds

L

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6.3.2 Switch6.3.2 Swit

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6.4 R6.4

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2.2 E Ports ON Del.2 E Ports ON D

6.2.3 E Ports ON/OFF6.2.3 E Ports ON/OF

6.3 Common Param6.3 Common Param

6.6


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E Ports OFF Delay ParamE Ports OFF Delay Pa

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------------AppendixAppendix

Appendix A: DAppendix A

Appendix BAppendix

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77

ons ExplanationsExplanations

C

1

The controller is specially designed for controlling vibratory feeder in automation systems. Combined

with the latest electronic technologies and elaborate design, the controller has the following

convenient and practical features:

: Automatic output frequency modulation in real time to ensure the vibratory feeder will

always work at its best vibration frequency.

: Automatic output voltage adjustment in real time to ensure constant

preset feed speed regardless of weight change of the feed material in the vibratory feeder.

: Automatically measure and output the best vibration frequency of the

vibratory feeder.

: Eliminate both feed speed variation caused by mains voltage

fluctuation and beat effect caused by industrial AC frequency.

: Sync output waveform of the slave controllers with that of the master controller to

the same frequency and phase to avoid beat effect.

: The controller has 2 groups of ON/OFF control ports. Switch sensor or

PLC can be connected to them to turn on/off the controller. Soft Startup Time, ON Delay, Off Delay

and Logical Relation of the ON/OFF Control can also be set.

The controller can recognize and adapt to both NPN

and PNP type switch sensors.

: In order to avoid sudden shock to the feed material and vibratory feeder, the controller

can gently increase output voltage/feed speed from 0 to the preset value when startup.

: 4 preset feed speeds can be stored and output by external short-circuit signal.

: Maximum output voltage value of the controller can be increased up to 150% of the

input voltage value.

Max Adjustable Output Voltage can be preset to protect the

vibratory feeder from damage caused by high voltage.

: Users can balance efficiency and maximum power by adjusting this parameter.

: Output Voltage/Feed Speed of the controller can be adjusted remotely by an

external potentiometer, a PLC, or a 1-5V/4-20mADC signal.

: The controller can output 24V DC power associated with logical relation

setting of the ON/OFF Control to drive a solenoid, an electrical relay or other external devices.

: Lock all buttons on the control panel by pressing the ON/OFF button and hold

for 2 seconds to prevent misoperation.

: Lock all parameters except Output Voltage/Feed Speed by self defined password to

prevent unauthorized operation.

: Reset all parameters of the controller to factory defaults.

: All parameters of the controller can be adjusted via RS485 communication

ports.

Auto FM

Auto Constant Speed Control

Auto Frequency Measuring

Automatic Voltage Regulation

Waveform Sync

Remote ON/OFF Control

Automatic Switch Sensor Type Recognition

Soft Startup

Preset Speeds

Acceleration

Max Adjustable Output Voltage:

Waveform Index

Remote Speed Control

24V DC Control Output

Control Panel Lock

Parameter Lock

Controller Reset

RS485 Communication

：

Chapter I Features


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Control Panel LocControl Panel

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2

Chapter II Installation Guide

Step One:Open the packing box and check the controller and all accessories.

Step Two:Connect the wiring terminals of the OutputPower Cable to the vibrator'selectromagnetic coil.

Live Wire

Neutral Wire

Earth WireYellow( and Green Dual Color)

Notice

Make sure the vibrator's electromagnetic coils is connected to the live wire andneutral wire of the Output Power Cable and the electromagnetic coils is reliably

earthed otherwise serious accident may occur.,

!

Step Three:Connect the connector of the OutputPower Cable to the Output PowerSocket of the controller.


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Step Four:Connect the connector of the Input PowerCable to the Input Power Socket of thecontroller.

Step Five:Connect the plug of the Input Power Cableto the mains jack.


Connect thecontroller side first

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Acceleration Indicator:The indicator lights up asthe Acceleration functiontakes effect when OutputVoltage value exceeds InputVoltage value.

Remote Speed Control Indicator:The indicator lights up when externalspeed control signal is effective.Meanwhile Vol+ and Vol- buttons loseefficacy.

Chapter III Components Descriptions

3.1 Descriptions of the Indicators

Speed A & Speed BIndicators:The indicator lights up whenexternal short-circuit signal isconnected to corresponding Gports.

Stop Indicator:The indicator lights up as thecontroller stops its output.

LED Screen:The LED Screen displaysparameter and its value.

Sync Signal Indicator:The indicator lights up as thesync signal is connected tothe Slave Controller.

Communication Indicator:The indicator lights up whenRS485 ports arecommunicating.

Auto/Semi-Auto ModeIndicator:The indicator lights up as thecontroller is set toAuto orSemi-AutoMode.

Sync Mode Indicator:The indicator lights up as thecontroller is set to SyncMode.

Vibration Sensor Indicator:The indicator lights up asvibration sensor is connectedto the controller.


H CUH

CUHCCUHAcceleration IndicatorAcceleration Indicator::

The indicator lights upThe indicator lights upthe Acceleration functhe Acceleration funtakes effect when Otakes effect whVoltage value exVoltage value eVoltage valueVoltage value

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3.2 Descriptions of the Buttons

Vol+ & Vol- buttons/ FeedSpeed Adjustment ButtonsIn Manual Mode, they workas Output Voltage adjustmentbuttonsIn Auto Mode or Semi-AutoMode, they work as FeedSpeed adjustment Buttons

．

．

ON/OFF ButtonTurn on/off output of thecontroller or lock the controlpanel

Parameter Value IncreaseButton & Parameter ValueDecrease ButtonAdjust parameter value bythese two buttons

FUNC ButtonSwitch among differentparameters by this button.

3.3 Descriptions of I/O Interfaces and Accessory

VibrationSensor Socket

InputPower Socket

Power Switch

OutputPower Socket

Vibration Sensor

Input Power Cable Output Power Cable


H CUH

CUHCUHVol+ & Vol- buttons/ FeedVol+ & Vol- buttons/ Feed

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VibrationVibrationSensor SocketSensor Socket

InputInputPower SPower S

CUH CCU/O Interfaces andO Interfaces and

CUH HCUHValue IncreaseValue Increase

& Parameter ValueParameter Valuease Buttonse Button

ust parameter value byt parameter value byhese two buttonso buttons

CFUNC ButtonFUNC ButtonSwitch amonSwitch amonparameterparamete

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A1

A2

A3

A4

H1

H2

H3

H4

G1

G2

G3

G4

3 4 Descriptions of Signal Control Ports.

ON/OFFCtrl

ON/OFFCtrl

24VCtrlOut

RS485

+24V

Input

GND

+24V

Input

GND

+24V

Output

B

A

-

+

GND

SpeedCtrl

Sync

Preset

+5V

GND of Resistor

Input

GND

Input

Input

Output

Output

-

+

-

+

GND

Speed A

GND

Speed B


H CUH

CUHHH UUUHUHUHUH

p

+24V+24V

Inputnput

GN

CUCCns of Signal Cs of SignalCUH CUntroller for Vibratory Feedoller for Vibratory Fee

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CUH CUCUCUCUHCUHHHHHHHUHUHUHUHUHUHUHUHCUHCUHUHUHCUCUUUCC

3

2

1

E

E

D2

D1

CCCCCCUCCUUUON/OFFCtrl

24

ON/OFFCtrl

2+24V

OutputOutputp

B

AA

-

++

GNDGND

CUH UH

CUCUUCUCUCUCUCUCUCUCUCCCCCC A

rtsrts

SpeedCtrl

SpeedCtrl

CUH CUH

CCCCCCCCCCCCCCUCUCCUCCCCCCUHUHHHHHHHH H UHUHHHUHUHHHUHUHG2

G3

5

Preset

Preset

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2

H3

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istoristor

GNDGND

InputInpu

InputInputp

Outpututputp

OutputOutput

-

++

--

+

G

CUH CUH UHHH

CUHCU

CUH CU66

C

CUHC

Parameters of the controller are classified into 4 types according to different adjustmentmethods: Common Parameters, Basic Parameters, Advanced Parameters and Auto/SyncParameters.

● " " " "

●

●

Press Vol+ or Vol- button to adjust Common

Parameters.

The buttons are designed to adjust

Common Parameters only.

Common Parameters can be adjusted by pressing

button even when any other

parameter is displayed on the LED screen. Thecontroller will go back to the previous parameter afterCommon Parameter adjustment.

" " " "

" " " "

Vol+ and Vol-

Vol+ or Vol-

7

Chapter IV Parameter Adjustment

4.1 Common Parameters

TYPE

SDVC34 M

:

-

Saturated StopSpeed A Speed B

Vol+ Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote


0 260V~ V

0 3200~ 1

CommonParameter

Symbol Range Unit

Output Voltage

Feed Speed

4.2 Basic Parameters

●

●

●

●

Press button and hole for 2 seconds to

enter Basics Parameter Adjustment Status.

Press button repeatedly to switch

cyclically among different parameters.

Press or button to adjust the parameter value.

Press button again and hole for 2 seconds

to exit Basic Parameter Adjustment Status.

" "

" "

" "

FUNC

FUNC

FUNC

▲ ▼

TYPE

SDVC34 M

:

-


Vol+Vol+ Vol-Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote


. ~ .25 0 4 0 0H Hz0 z

. ~ .0 0 10 0s s

0 0 0 0s s. ~２ .

0 0 0 0s s. ~２ .

BasicParameter

OutputFrequency

Soft Startup Time

C PortsOn Delay

C PortsOff Delay

Symbol Range


Unit

H CUH of the contf the coCommon ParamCommon Par

ters.rs.

●●

●●

●●

Press Vol+ orPress Vol+" """

Parameters.Parameters.

TheThe

CommonCom

ComC

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B

r IV ParIV PaCUH CUntroller for Vibratory Feedoller for Vibratory Fee

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OutpuOut

Feed SpeFeed Sp

4.2 Ba4.2 B

CUH o ad

ttons are desigtons are des

ly.

rs can be adjusted by prs can be adjusted by p

tton even when any othtton even when any oth

played on the LED screlayed on the LED screll go back to the previouback to the pre

arameter adjustment.arameter adjustment.

CUCUCUCUCCmmonmeter

S

tage

CUHpes according to differees according to differs, Advanced Parametervanced Param

CommonCommon

o adCer Adjustmer Adjust

CUH CUH

te

●●

button andbutton an

s Parameter AdjustmParameter Adjus

button repeatbutton repea

cally among different pcally among different p

Press or button toress or button to

Press buttPress bu

to exit Basic Paramto exit Basic Param

"

""

" "" "

CC

ororor

CCCBasPar

CUH er

CCUHHUHUHCCUHCUUHU0 260V0 260V VV

0 32000 3200

ange Unit

for 2

CUH UH

CUHCUHCUCUUUUUUHUHCCCUCUCCCCCCCCUUrated StopSpe Speed B

CUCUVo +

CUCUVol-CUUFUN

Auto

ync

Sensor

Sync Signal

Communicate

Remote UUCUHCUHCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUUHUUUHUUUHCUCUCUUUCUUUUU

ncy Intelligent Controfor Vibratory Feeder

CUH le for 2e fo

t Status.t Status.

CUHCUHUHUHCUCUCUCUCUCUCCUCUCCUCUUUCCCCCCCC

Timeme

ymbol

CUH UHH

r value.value.

ndsnds

UHUHUUUUSaturatedUUUUUUUUUVariable Frequency Inte

CUHCU

CUCUCUC77

CUH0 0 0 0s0 0 0s２２0 00 00 UH s

HH0 0s0 0000

UHCUHHHHHH

CUHUHCUCUCUCUCUCUVC34 M

CUCUCUCUCUUUUUCUHCUHCUHUUUUUUUUUUUCUUUUUUUCUCUCUCUCUCUHzHzCCit

C

8

4.3 Advanced Parameters

● " "

●

●

●

Press and buttons simultaneously andhold for 2 seconds to enter Advanced ParameterAdjustment Status

Press button repeatedly to switchcyclically among different parameters.

Press or button to adjust the parameter value

Press and buttons simultaneously againand hold for 2 seconds to exit Advanced ParameterAdjustment Status.

FUNC ▲

▲ ▼

▲

" "

" "

FUNC

FUNC

Symbol RangeAdvanced Parameter Unit

E Ports On Delay

E Ports Off Delay

C Ports Logical Relation

E Ports Logical Relation

24V Ctrl Out Logical Relation

Whether or not output of the controller iscontrolled by ON/OFF Control Signal

Switch Sensor Type

Logical Relation of C Ports and E Ports

Max Adjustable Output Voltage

Acceleration Index

Waveform Index

Temperature Display

Communication Address

Communication Baud Rate

Parameter Lock Password

Controller Reset

0.0s 20 0s

0.0s 20 0s

~ .

~ .

--- _-_

--- _-_

--- _-_

Positive Logic Negative Logic



---Relevant

---Irrelevant

Uto Auton n NPN type SensorPnP PNP type Sensor

:

:

:

P

0V~260V

100%~150%

0~100

-10.0 ~80.0

1~31

3~1152

0~999

℃ ℃

s

s

\

\

\

\

\

\

V

%

1

C

1

1

\

°

kbps

Ready for Reset

Reset Completed

TYPE

SDVC34 M

:

-


Vol+Vol+ Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote



OR AND, , XOR

H CUH

CUH""

●●

●●

●●

s andan" "" "

for 2 seconds to entor 2 seconds to edjustment Statusdjustment Status

Press buttoPress buttcyclically among dicyclically among d

Press orPress or

PressPressand hold foand hold foAdjustmAdj

▲ ▼▲ oror

" ""

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CUCarametersameters

ttoCUH CUntroller for Vibratory Feedoller for Vibratory Fee

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E PortsE Por

24V Ctrl O24V Ctrl O

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Hthe

ons simultns simuxit Advanced Pit Advance

Parameter

ts On DelayOn Delay

rts Off DelayOff Delay

Logical RelatLogical Relat

al R

CUH UHsly andnd

etereter

switchitchs

meter valuemeter value

usly agausly agaete

UHUH

CUH HUHCUCUCCCC

nsor Typeor Type

ogical Relation of C Portsgical Relation of C Ports

Max Adjustable OutpMax Adjustable Ou

Acceleration IndAcceleration Ind

Waveform Inveform

TemperTemper

Com

CUH HUUUUUUUUUUUUUUCUUCUCUUCUCUCUCUCUCUCUCUCUCUCUCUCCCCCCCCCHHUHUH

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e controller isontrollol SignalSignal

0.0s 20 0s0.0s 20 0s

0.0s 20 0s0.0s 20 0s

202020

2020

----

------

----

Positive LoPositive

PositiP

CUH CCC

Hange CUHCUHCUHCUHCUCUCUUUHUUTYPE

SDVC34 M

: UHV

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nc Signal

unicate

CUCUCUCUCUUHUHCUHCUHHHHHHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHHUHUHUHUHUHUHUHUHUHUHUHCUCUCUUCCCCCCCCCCCU

CUHHHHHHHHHHHHHHHHHHHUHUHCUUHHCUCress

Baud RateBaud Rate

Lock Passwordk Password

tt

0~0

CUH HHUHCCCC

Htiv

Negative Logegative L

Autoon NPN type Sensorn NPN type Sensor

PnP PNP type SensorPnP PNP type Sensor

0V~260VV~260V

~1

OR A,R,CCCCCCCCCCCC

CUHUUCUCUCUCCCCCUogic

s

ss

\

\\

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CUH CU88

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CUUUUUUUUUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUUUUUUUUUUUUUUHUHUHUHUHUUUUUUUHUHUHUHUHUHUHUHUHUUUHUHUHUUUH99999

Ready for ReReady for R

Reset CoReset C

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VV

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11

C°

C

9

Hz

Hz

\

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1

1

1

1

V

1

1

1°

V

1

1

4.4 Auto/ Sync Parameters

● " " ▼

●

● ▲ ▼

● ▼

Press and buttons simultaneously andhold for 2 seconds to enter Auto/Sync ParameterAdjustment Status

Press button repeatedly to switchcyclically among different parameters.

Press or button to adjust the parameter value

Press and buttons simultaneously againand hold for 2 seconds to exit Auto/Sync ParameterAdjustment Status.

FUNC

" "

" "

FUNC

FUNC

TYPE

SDVC34 M

:

-


Vol+ Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote


Auto/Sync Parameter Symbol Range Unit

Centre Frequency

Max Offset in Auto FM

Output Voltage AdjustmentMethod

Output Frequency AdjustmentMethod

Output Frequency AutoAdjustment Index

Amplitude Auto AdjustmentIndex

Feed Speed Display

Output Voltage Display

Max Amplitude Index

Max Adjustable Feed Speed

Phase Difference

Max Output Voltage in AutoFrequency Measuring Process

Feed Speed Min AdjustmentVolume

Vibration Sensor Number

Amplitude Auto AdjustmentIndex

25.0Hz~400.0Hz

0.0Hz~180.0Hz

_ _ _ AutoManual_

_

_

_ _ _ AutoManual_

_

_ Sync


0~200

0~999

0~999

0~H

0~h

0~500

0~3200

-180°~180°

0V~260V

1~10

1~4

H CUH

CUH" "" "

●●

●●

●●

ss a ds a d" " ▼" "

ld for 2 seconds to ented for 2 seconds to enAdjustment Statusdjustment Status

Press buPress bcyclically amongcyclically among

Press orPress or▲ ▼▲▲

PressPressand holdandAdjustAdj

" "" "

""

CUCarametersrametersCUH CUntroller for Vibratory Feedoller for Vibratory Fee

CUHUHHHUHUHUMaM

OutputOutpuMethodMethod

ppp

Output FreOutput FrMethodMethod

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CCCCUH CUCUCU

st the pt the

ttons simultatons simulexit Auto/Sync Paexit Auto/Sync

o/Sync Parameter S

tre FrequencyFrequ

set in Auto Fset in Auto F

ge A

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usly andsly andameterameter

o switchwitch

eter valueeter value

sly ag

UU

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AdjustmAdjus

Speed Displaypeed Display

Output Voltage Displayutput Voltage Display

Max Amplitude IndMax Amplitude Ind

Max Adjustabx Adju

Phase DPhase D

MaxF

Auto AdjustmentAuto AdjustmentCUH HHUHCUHCUCCCCCCUCUCUCCUCCCCCCCCCCCCCCCCCCCCCCUCCCCCCUCUCUCCCU

Ra

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25.0Hz~400.0Hz5.0Hz~400.0Hz

0.0Hz~180.0Hz0.0Hz~180.0Hz

_ _ __ _ _ AutoAuManuMa__

_

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_

0

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mun

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ng Processocess

n AdjustmentAdjustment

ensor Numbersor Number

0

0~3200~32

-180-180

CUH HHHUHCUCUCCC

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HH

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HzHz

HzHz

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CUH CUCU99

CHHUH

CUHUHHHUHCUHCUCUCCU

VV

11

11

1°1

VVC

C

To simplify operation, Parameter 5 and 6 are set to by factory default. Under thissetting, the controller will work in Manual Mode if Vibration Sensor is not connected to thecontroller or work in Auto Mode if Vibration Sensor is connected.

If both 5 and 6 are set to , the controller will work in Manual Mode whether or notVibration Sensor is connected to the controller.

If Vibration Sensor is not connected to the controller, the controller will always work inManual Mode.

Γ Γ

Γ Γ

_ _ _

Note:_

__

10

Chapter V Operating ModeThe controller can be set to work in one of the following four operating modes according tospecific application requirements.

Manual Mode: Both Output Voltage and Output Frequency are manually adjusted

Auto Mode: Both Output Voltage and Output Frequency are auto adjusted based on feedbackfrom the Vibration Sensor to ensure constant preset feed speed and best vibration frequency ofthe vibratory feeder

Semi-Auto Mode: Output Voltage is auto adjusted based on feedback from the VibrationSensor to ensure constant preset feed speed. Output Frequency is manually adjusted.

Sync Mode: In Sync Configuration, if Output Frequency of Controller B is alwaysconsistent with that of Controller A. We define Controller A as Master Controller, ControllerB as Slave Controller and Operating Mode of Controller B as Sync Mode.

●

●

●

●

Operating Mode

Manual Mode

Auto Mode

Semi-Auto Mode

Sync Mode

Output Voltage U Output Frequency E

AdjustmentMethod

Γ5 Setting AdjustmentMethod Γ6 Setting

Manual

Auto

Auto

Manual or Autoor

Auto

Manual

Manual

Auto Sync withMaster Controller

5.1 Manual ModeIn Manual Mode, both Output Voltage and Output Frequency are manually adjusted.

Operating Mode

Manual Mode


AdjustmentMethod


Manual Manual


H CUH

C

er can be sr can bepplication requpplication req

ual Mode: Both Outpual Mode: Both Out

uto Mode: Both Outpuuto Mode: Both Outpurom the Vibration Sensrom the Vibration Senthe vibratory feederthe vibratory feeder

Semi-Auto ModSemi-Auto MSensor to ensureSensor to ensur

Sync ModeSyncconsistentonsistB as SlaB as Sl

●●

●●

CUapter V Opter V

work ink intCUH CUntroller for Vibratory Feedoller for Vibratory Fee

CUH HUHUHSemi-AuSemi-A

Sy

5.15.

CUH CUHCUHCUCCCUCU

ge is ae it feed speefeed sp

guration, if Outpguration, if Ountroller A. We definetroller A. We defin

nd Operating Mode of Cd Operating Mode of C

Manual Modenual M

ModeMode

Outpu

AdjustmMethj

CUHting Modeting Modwing four operating mowing four operating m

tput Frequency are mantput Frequency are ma

utput Frequency are autput Frequency are auttant preset feed speednt preset feed sp

djusted basedjusted basetput Frep t Fr

CUTo simplify operTo simplify osetting, the cosetting, the ccontroller ocontroller o

te:CUH odeodee, both Output Voltaboth Output Vo

CUHCUHCUHHOperating Mode

Manual ModeManual Mode

CUH HHUHUHCUHCUUHUHUHHHHUUUCCCU

tting

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Manual or Autonual or Auto

M

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d on feedbackon feedbackon frequency ofn frequency of

om the Vibrationom the Vibrationually adjusted.ally adjusted.

oller B is alwaysB is alwaysaster Controller, Controaster Controller, Cont

ync Mode.ync Mode.

Output Freq

djustmentth d

CUHr 5 and 6 are set tor 5 and 6 are set tork in Manual Mode if Vk in Manual Mode if V

Mode if Vibration SensMode if Vibration Sen

e set to , the controe set to , the contris connected to the cons connected to the con

nsor is not connected tor is not connec

5 and5 and5 and HHHCUH HHHHHHUHSync withync with

ter Controllerer Controller

cy are manually adjustedcy are manually adjus

CUCUCCUCU Outpu

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CUHUUUCUCUCCCCCC

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the controller will ahe controller wil

CU1010

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e whethere whetheCUHUHUHUHCUHHCUUU

etting

C

11

5.1.1 Output Voltage Parameter U Adjustment in Manual Mode

Actual Output Voltage value of the controller can be displayed on the LED screen digitallyand accurately.

�

�

�

Turn on the power switch when Vibration

Sensor is not connected to the controller.

The LED screen displays Output Voltage

Parameter U and its value.

Adjust the U value by pressing Vol+ or

Vol- button.

TYPE

SDVC34 M

:

-


Vol+ Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote

Output Voltage is180V


5.1.2 Output Frequency Parameter E Adjustment in Manual Mode

With the help of DDS technology, Output Frequency of the controller is always stable andhigh-precision regardless of time or temperature change.

�

�

�

Press button and hold for 2

seconds to enter Basic Parameter

Adjustment Status.

The LED screen displays Output

Frequency Parameter E and its value.

Adjust the E Value by pressing or

button when Vibration Sensor is not

connected to the controller.

▲ ▼

" "FUNC

TYPE

SDVC34 M

:

-


Vol+ Vol-Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote

Output Frequency is50.0Hz



CUH CUH

ut Voltaget Voltagately.ately

��

��

Turn on the power switcTurn on the power swit

Sensor is not connectSensor is not connec

The LED screenThe LED sc

Parameter UParameter U

AdjustA

Vol-V

CUarameter U Adjustameter U Adju

e of thef thCUCUUH ntroller for Vibratory Feedoller for Vibratory Fee

CUH UH

5.1.2 O.1.2

With the helWith the hhigh-precisionhigh-precisi

��PressPress

se

CUH CU

Vo

essing Vol+ orssing Vol+ or

t Frequent Frequen

DD

CUH CU

ModeMode

e displayed on the LEDdisplayed on the LED

r.

CUHCU

us.us.

creen displays Outpcreen displays O

cy Parameter E and its vcy Parameter E and its

djust the E Value by presdjust the E Value by pre

button when Vibration Stton when Vibration

connected to the conconnected to the co

CUH CUHE Adjustment in ManE Adjustment in M

utput Frequency of theut Frequency of theor temperature changeor temperature chang

d hold for 2old fo

metermeter

CUH CUHCUHCUHCUCUHHCCCCCCCCCCCCCUCUTYPE

SDVC34 M

:

Stop

CUCUHVol+

CUCUol-CUHUHFU

Auto

Sync

Sen

nc Signal

municateUUUUUHUHUUUUUUUUUUUUUUUUUHUHUHUHUHUHUHUUUHUHUHUHUHUUUUUHUUUUUUUUUUUUUUUUUCUH

oller

CUH UH

CUH Hwa

UHUHUUHHHHHHUUUHUHUHUHted StopSpeed A ed B

UVolUUA

Remote

UHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHHHHHHHHHHHHHHHUHHUHUHCUC

Output Frequency isOutput Frequency is50.0Hz50.0Hz

Variable Frequency Intelligent Controlfor Vibratory Feeder

CUHCCU

ble andble and

CUH CU1111

C

CUHCUHUUUUUUUUUUU

C

12

5.2 Auto Mode

In Auto Mode, Vibration Sensor must be connected to the controller. Output Voltage andOutput Frequency will be adjusted automatically based on feedback from the Vibration Sensorto ensure constant preset feed speed and best vibration frequency. Output Voltage and OutputFrequency can not be adjusted manually.

By factory default, when Vibration Sensor is connected, the controller works in Auto Mode.

Operating Mode

Auto Mode


AdjustmentMethod


Auto Auto

Note:The controller will still work in Manual Mode if Vibration Sensor is not connected.

Step One:

Step Two:

Connect the connector of the Vibration Sensor to the Vibration Sensor Socket of thecontroller.

Install the vibration sensor head on a secure and even surface of the vibratory feederfirmly.

Vibration Sensor

5.2.1 Vibration Sensor Installation


H CUH

e, Vibrat, Vibrquency will bquency wil

e constant preset feconstant presetuency can not be adjustency can not be adjus

y factory default, whenfactory default, when

CUHCUHCUHCUOperating

A

NN

CUensor musensor mususteCUH CUntroller for Vibratory Feedoller for Vibratory Fee

CUHUH Ste

Step Two:Step Two

ConnConcontrollcontro

Install theInstall thfirmly.firmly.

CUCne:ne:e connecte connectCUH HHUHUHHH

ustmenMethod

AutoAuto

will still work in Manualstill work in Manual

ation Sensor Installaation Sensor Installa

CCCCCUH o the controller. Outpuo the controller. Outpu

based on feedback fromsed on feedback frombration frequency. Outbration frequency. O

r is connected, the conts connected, thCCColtage U

Γ5 S tt

CUH CUCU

CUH Hon Sensor to the Vibratn Sensor to the Vibra

or head on a secure and ehead on a secur

CUH OutpOu

Auto Mode.Auto Mode.

CUHHCUHCUUHCUUUU

equency Ee

ntd Γ6 Setting

AutoAuto

r is not connectedis not connecte

CUH UHHH

CUH CCC

Hhe vibratory feedhe vibratory fe

oror

C

CUHCU

t of thef the

CUH CU1212

C

CUHCUH

C

13

5.2.3 Auto Frequency Measuring in Auto Mode

5.2.2 Feed Speed Parameter A Adjustment in Auto Mode

�

�

�


Sensor is connected to the controller. The

Vibration Sensor Indicator lights up.

The LED screen displays Feed Speed

Parameter A and its value.

Adjust the AValue by pressing Vol+ or

Vol- button to desired feed speed.

" "

" "

TYPE

SDVC34 M

:

-


Vol+ Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote

AutoMode/ -Semi AutoIndicator

VibrationSensor Indicator


ByAuto Frequency Measuring, the controller detects the best vibration frequency of thevibratory feeder and sets all related parameters automatically. The only thing users need to dois to set Feed Speed Parameter A, then the controller will work in the best status.

�

�

Press and buttons simultaneously

and hold for 3 seconds when Vibration

Sensor is connected to the controller to

start Auto Frequency Measuring. Output

Frequency Parameter E and its value will

be displayed on the LED screen in the

measuring process.

After the Auto Frequency Measuring

process, the controller will automatically

set all related parameters including Centre

Frequency parameter F, Max Offset in

Auto FM parameter n, Output Frequency

Auto Adjustment Index IF, Amplitude

Auto Adjustment Index PA, Amplitude

Auto Adjustment Index IA, Phase

Difference Parameter . Output Voltage

Adjustment Method Parameter 5 and

Output Frequency Adjustment Method

Parameter 6 will be set to .

▲ ▼

Γ

Γ _ _ _

TYPE

SDVC34 M

:

-


Vol+ Vol--

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote


● If the LED Screen displays Err02 themomentAuto FrequencyMeasuring Processstarts, it is normal, because of parameter b is settoo high.

● If you want to cancel Auto FrequencyMeasuring Process, Press ON/OFF button.Then the controller will go back to the statusbefore Auto Frequency Measuring.

After Feed Speed setting and Auto Frequency Measuring, the controller will work in best status atdesired feed speed.




H CUH

CUH��

��

on the power swon the power s

ensor is connected to thor is connected to

Vibration Sensor IndicaVibration Sensor Indica

The LED screen dThe LED screen d

Parameter A anParameter A

Adjust thAdjust th

Vol-V" ""V lV

CUCrameter A Adjustmeter A Adju

heCUH CUntroller for Vibratory Feedoller for Vibratory Fee

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o s

��PressPress

and hold fand hold

Sensor isSensor i

start Astart

FrFr

CUH Frequency MeasuringFrequency Measuring

CCUsing Vol+ oring Vol+ o

d feed speed.feed speed.

" ""V l+V l+

Frequency Measuringequency Measuy feeder and sets alleeder and sets a

d Speed Paramd Speed Param

▼

CUH UHModeMode

CCAutoAutoMM

CUHC

the LEhe L

ocess.cess.

e Auto Frequency MeasAuto Frequency Me

ess, the controller will autss, the controller will au

t all related parameters inall related parameters

Frequency parameter F,requency parameter F,

Auto FM parameter nAuto FM paramete

Auto AdjustmentAuto Adjustment

Auto AdjustmeAuto Adjustm

Auto Adjustuto Ad

DifferencDifferen

AdjusAdjus

Ou

CUHUHdetects the best vibtects the best viers automatically. Thers automatically. Th

controller will work inontroller will work in

neouslyously

VibrationVibration

controller toontroller to

easuring. Outputuring. Output

nd its value willits value will

een in theeen in the

CUH CUHCUHCUHCUHCUHUUCUCUUUUUCUCUUUCUHCUH

TYPE

SDVC34

:

Stop

UUH+

UUVol-

UHUHUNC

Sync

Sensor

Sync Signal

Communicate UUUUUUHUHUUHHHHHHHHHHHHHHHHHHHHCUU

CUHHC

ncycy

dee

plitudeplitude

hasehase

Output Voltageutput Voltage

rameter 5 andrameter 5 and

Adjustment Methodustment Method

l be set to .be set to ._ _ __ _ _

momstartsstartootoo

d setting and Autosetting and Auto

CUHCCCCCCUH

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UH UH HHUHHHHHHHHHHHHHHHHHHHHHHHHHHH HHHHHUHH

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riable

e LED

VibrationVibrationSensor IndicatorSensor Indicator

ode/Semi AutoSemi Aut--IndicatorIndicator

CUHC

heheneed to doneed to do

CCtroller

CUHCU1313

CUH HHHntrol

to Frequeo Freq

uring, the controller wiuring, the controller w

CCCUUCUHCUHUHUHUHErr02 ther02 the

Measuring ProcessMeasuring Processuse of parameter b is setuse of parameter b is sett

ancel Auto Frequencyel Auto FrequencPress ON/OFF buttoress ON/OFF bull go back to thl go back to thMeasuring.Measuring.

C

14

5.2.4 Explanation of Auto/Sync Parameters

(Concerning adjustment method, value range and unit of Auto/Sync Parameters, please referto Section 4.4)

5.2.4.1 Output Voltage Adjustment Method Parameter

_ _ _

_ _ _

5.2.4.2 Output Frequency Adjustment Method Parameter

5.2.4.3 Centre Frequency Parameter

5.2.4.4 Max Offset in Auto FM Parameter

5.2.4.5 Output Frequency Auto Adjustment Index

When parameter is set to , Output Voltage parameter U will be visible whileparameter A hidden. Output Voltage parameter U can be adjusted manually.

When parameter is set to and Vibration Sensor is connected to the controller, FeedSpeed parameter A will be visible while parameter U hidden. Output Voltage will be adjustedautomatically based on feedback from the Vibration Sensor to ensure constant preset feedspeed.

When Vibration Sensor is not connected to the controller, even if parameter 5 is set to ,parameter U will still be visible and manually adjustable.

When parameter is set to , Output Frequency Parameter E can be adjusted manually

When parameter is set to and Vibration Sensor is connected to the controller,Output Frequency Parameter E will be adjusted automatically to resonant frequency (bestvibration frequency) of the vibratory feeder based on feedback from the Vibration Sensor.Output Frequency can not be adjusted manually.

When parameter 6 is set to and Sync Signal Wire is connected between Master andSlave Controllers. Output Frequency of Slave Controller will always be consistent with that ofMaster Controller. Output Frequency of the Slave Controller can not be adjusted manually.

When Vibration Sensor is not connected to the controller, even if parameter 6 is set to ,Output Frequency will still be adjusted manually.

Centre Frequency should be set around resonant frequency of the vibratory feeder so that thecontroller can find the best vibration frequency more quickly.

Auto FM range is (F ± n) Hz.

Suggested n value is around 30.0Hz.

If Parameter n is set too large, the vibratory feeder may work at improper vibration frequency.

If Parameter n is set too small, flexibility of the vibratory feeder may be affected.

The Auto FM process is running via PID algorithm. IF is a frequency integration index.

The larger Parameter is set, the faster Output Frequency is auto modulated. But too largevalue may cause oscillation of the Output Frequency.

" "

" "

" "

" "

" "

" "" "

Γ

Γ

Γ

Γ

Γ

5

5

6

6

IFIF

__

_

__

_

_ _ _

_ _ _

Note:

Note:

Γ

Γ

" "


H CUH adjustmdju.4))

Output Voltage Adutput Voltage A

n parameter is setn parameter is srameter A hidden. Outprameter A hidden. Out

When parameterWhen parameterSpeed parameter Apeed parameteautomatically baautomatically bspeed.speed.

When VWhenparapara

" "" "

""

Note:ote:

CUf Auto/Sync ParamAuto/Sync Par

method, valmethod, valCUH CUntroller for Vibratory Feedoller for Vibratory Fee

CUHbratibra

Output FrOutput

When paramWhen paraSlave ControllSlave ControlMaster ControMaster Contr

WhenWhOutOu

Note:Note:

CUH ut Frequency Adjustmut Frequency Adjustm

whilfrom thfrom t

r is not connected to theis not connected to thll be visible and manual be visible and manu

ameter is set tometer is set to

arameter is set tometer is seequency Parametequency Parame

quency) of thquency) of tncy canc can

" ""

" ""

CUH it of Auto/Sync Paramet of Auto/Sync Parame

ParameterParameter

t Voltage parameter U wVoltage parameter U wmeter U can be adjustedter U can be ad

Vibration Sensor isbration Sensorameter U hiddemeter U hiddration Senation SenCUCUCUCUUHUUHCUCUUUCU

CUH e Frequency Parame Frequency Para

2.4.4 Max Offset in A2.4.4 Max Offset in

r iswill still bill stil

quency should be set arquency should be set aer can find the best viber can find the best vib

Auto FM range is (F ±Auto FM range is (F ±

Suggested n valueSuggested n v

If Parameter nIf Parameter

f Parametef Paramete

CUH rameterame

uency Parameuency Param

tion Sensor is connecn Sensor is connsted automatically to reted automatically to r

der based on feedback fder based on feedbackmanually.manually.

and Sync Signal Wirend Sync Signal Wency of Slave Controlleency of Slave Controll

quency of the Slave Couency of the Slave Co

onnected to theonnected to thusted manusted man

CUH hileile

controller, Feedcontroller, Feedge will be adjustedge will be adjusted

nstant preset feednstant preset feed

n if parameter 5 is setif parameter 5 is se

canCCCC

CUH terter

quency Auto Adjustmequency Auto Adjustm

Hz.z.

the vibratory feeder mahe vibratory feeder m

all, flexibility of the viball, flexibility of the v

cess is running via PIDess is running via PID

ameter is set, theeter is set,cause oscillation oause oscillation

" ""

HCUH twe

e consisteconsisbe adjusted mbe adjusted

n if parameter 6 is seif parameter 6 is se

frequency of the vibratoequency of the vibratomore quickly.ore quickly.

CUHnuallylly

er,er,cy (besty (best

on Sensor.Senso

aster andster andth that ofth that oflly.

CUH CU1414

C

is a frequencis a freque

equency is auto modquency is auto mquency.quency.

CUHt thethe

per vibration frequencyper vibration frequency

ay be affected.be affected.

egrat

C

15

5.2.4.6 Amplitude Auto Adjustment Index

5.2.4.7 Amplitude Auto Adjustment Index

5.2.4.8 Feed Speed Display Parameter

5.2.4.9 Output Voltage Display Parameter

5.2.4.10 Max Amplitude Index

5.2.4.11 Max Adjustable Feed Speed Parameter

5.2.4.12 Phase Difference Parameter

5.2.4.13 Max Output Voltage in Auto Frequency Measuring Process Parameter

5.2.4.14 Feed Speed Min Adjustment Volume Parameter

5.2.4.15 Vibration Sensor Number Parameter

The controller adjusts Output Voltage automatically via PID algorithm. PA is a speed ratioindex.The larger Parameter PA is set, the faster Output Voltage is auto adjusted. But too large PAvalue may cause oscillation of the Output Voltage.

The controller adjusts Output Voltage automatically via PID algorithm. IA is a speedintegration index.The larger Parameter IA is set, the faster Output Voltage is auto adjusted. But too large IAvalue may cause oscillation of the Output Voltage.

Parameter is designed for displaying Feed Speed and it is nonadjustable.

Parameter G is designed for displaying Output Voltage and it is nonadjustable.

Set index P to restrict max amplitude of the vibratory feeder.

Feed Speed Range is 0 to H. Parameter H restricts Maximum Feed Speed to certain value toprotect the vibratory feeder from high voltage caused by misoperation.Remote Speed Control feed speed is also affected by this parameter.

Adjust Parameter to change phase of the output wave, default phase difference is 0°

Output Voltage won't exceed the Parameter b value in Auto Frequency Measuring Process toprotect the vibratory feeder from damage.

Parameter c represents adjustment volume of the Feed Speed Parameter A at one press of Vol+or Vol- button. Parameter c ranges from 1 to 10.

The controller is adaptive to 4 different model Vibration Sensors. Set parameter accordingto the sensor model so that when Feed Speed is set, the controller will output the same voltagevalue no matter which model Vibration Sensor is connected.


1

2

3

4

SDVS20 1-

SDVS20 2-

SDVS20 3-

-SDVS20 4

16g 16g 16g/ /

35g 35g/ /-

50g 50g/ /-

70g g/ /-35

Parameter Value Model Specification(Acceleration of x axis/y axis/z axis)

H CUH

tude Atude

5.2.4.7 Amplitude Au5.2.4.7 Amplitude A

5.2.4.85.2.4.

ler adjusts Oler adjust

rger Parameter PA is srger Parameter PA isue may cause oscillatioe may cause oscillatio

The controller adjuhe controller aintegration indexintegration indeThe larger ParThe larger Parvalue may calue m

ParaPara

CUH AdjustmenAdjustmen

t VoltCUntroller for Vibratory Feedoller for Vibratory Fee

CUH5.2.4.115.2.4.1

5.2.4.12 P5.2.4.12 P

5.25.2

Feed SpeedFeed Speprotect the vibprotect the vRemote SpeedRemote Speed

Adjust PAdjust P

OO

CUH splay Parameterplay Parameter

Voltage Display ParaVoltage Display Pa

Max Amplitude Indeax Amplitude I

AdjustabAdjustab

geg

the faster Outhe faster Oof the Output Voltof the Output Vo

ned for displaying Feedned for displaying Fee

is designed for displayis designed for display

P to restrict max amto restrict max

ge is

HHHHHHHHHCUH

dexx

ly via PID algorithm. Pvia PID algorithm. P

put Voltage is auto adjuput Voltage is auto adjuVoltage.oltage.

matically via PIatically via P

VoltaCCCCCCCCCCCCC

CUH put Voltagut Volt

Feed Speed Min AdjusFeed Speed Min Adju

5.2.4.15 Vibration Se5.2.4.15 Vibration Se

won't exceed thwon't exceedbratory feeder from datory feeder from

eter c represents adjustmter c represents adjustol- button. Parameter cbutton. Parameter c

The controller is adThe controller is adto the sensor modto the sensor mvalue no mattevalue no mattCCCCParame

CUH ParameterParameter

Parameterrame

Auto FreAuto Fr

age and itge and

vibratory feeder.ibratory feeder.

er H restricts MaximumH restricts Maximumhigh voltage caused byhigh voltage caused b

ed is also affected by thed is also affected by th

e phase of the outpphase of the ou

ameCUCCCUCCUUHUHUHUHUHUHUHCUH ge PAge PA

A is a speeds a speed

ted. But too large IAd. But too large I

nonadjustable.adjustable.

nadjustanadjusta

CUH arameterrametrent model Vibrent model Vi

Feed Speed is set, theed Speed is set, tibration Sensor is connbration Sensor is con

CUHCUCUHCUCCUCCCUHUUUSDVS20 1SDVS20 1

SDVS20 2SDVS20

SDVS20 3SDVS20

SDVSSDVS

Model (Accele

CUH ring Process Parametring Process Paramet

Parameterarameter

lt phase difference is 0°t phase difference is 0

uto Frequency MeasuriFrequency Measur

he Feed Speed ParameFeed Speed Para

SeCUCUCUCUCUH

n value tovalue to

CUHCU1515

CUH HHUH16g16g

gg/-/-35g5g

0g 50g0g 50g/ /-/-50g50g

70g g70g g/ /-/ /gg

CUHs of Vol+s of Vol+

meter accordingr accordingtput the same voltagetput the same voltage

CUCUCUCUCCCCCaxis)

C

16

5.3 Semi-Auto ModeIn Semi-Auto Mode, Vibration Sensor must be connected to the controller and Parameter 6

must be set to .

Output Voltage will be adjusted automatically based on feedback from the Vibration Sensor toensure constant preset feed speed. Output Frequency will be adjusted manually.

Γ

___

Operating Mode

Semi-Auto Mode


AdjustmentMethod


Auto Manual

Note:The controller will still work in Manual Mode if Vibration Sensor is not connected.

5.3.1 Vibration Sensor InstallationThe same with Section 5.2.1

5.3.2 Semi Auto Mode Setup

�

�

�

�


Sensor is connected to the controller. The

Vibration Sensor Indicator lights up.

Press and buttons

simultaneously and hold for 2 seconds to

enter Auto/Sync Parameter Adjustment

Status

Press button 3 times to switch to

Output Frequency Adjustment Method

Parameter 6

Press or button to set 6 to .

" " ▼

" "

▲

FUNC

FUNC

Γ

Γ▼ ___

TYPE

SDVC34 M

:

-


Vol+ Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote

5.3.3 Feed Speed Parameter A Adjustment in Semi-Auto Mode

�Adjust the AValue by pressing Vol+ or

Vol- button to desired feed speed

" "

" " .

TYPE

SDVC34 M

:

-


Vol+ Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote








H CUH ModeMo

o ..

oltage will be adoltage will be aconstant preset feedconstant preset fee

CUHCUCUHCUHOperating Mode

Semi-AuSemi-Au

NoteNotThTh

5

CUModeMode

ration Sensoration Sensor

dCUH CUntroller for Vibratory Feedoller for Vibratory Fee

CUH UH��

�

SeS

VibratVibr

PressPress

simultaneosimultane

enter Aenter A

StatStat

" U

CUH C

HHHHAutoAuto

till work in Manual Modill work in Manual Mod

n Sensor Installatioensor Installatioh Section 5.2.1Section 5.2.1

mi Auto Mode SetupAuto Mode Setup

on the power switn the power swi

connectedconnected

ensor

CUH ted to the controller anted to the controller an

ased on feedback from tn feedback froquency will be adjustedquency will be adjuste

CUCUCCUCCColtage

Γ5 Setting

CUH UH

CUtton 3ton

ncy Adjustmncy Adjus

66

or button to set 6or button to set ΓΓ▼

.3.3 Feed Speed Para.3.3 Feed Speed Par

�Adjust the Aust th

Vo bVo b" "" "Vol- buVol- bu

CUH Hn

Thehe

p.

r 2 seconds to2 seconds to

ter AdjustmentAdjustment

to switch toto switch to

Method

CUH nso

UHHUHCUHHCUUHUU

ncy E

Γ6 Setting

uall

sor is not connected.r is not connecte

CUH Htmentmen

g Vol+ orVol+ or

ed speeded spee

""V l+V l+

.ed speedd speed

CUHCCUH

UHUHUHUHUHUHUHUHUHUHUHUHUHHHTYPE

SDV

HHVol+HHVoHHFUNC

Auto

Sync

sor

al

Com HHHHHHHHHHHHHHHHHHHHHHHHHCUHHUH

emi-Auto Memi-Auto M

nr Indicatorndicator

CUHCUCCCCtop CCntroller

CUHCU1616

CCUHHH HHHHHUHHHHHHHUHrationationensor Indicatornsor Indicator

Autoutocatorcator CUHUH

CUHCUCUCCCCCCUCUCUCUCCCCCC

Saturated SSpeed A Speed B

CCVol+CCVolCCRemote

CUCUCCCCCCCCCCCCCCCUCCCCCCUCUCCCUCCCUCUCCCUCCCUCCCCCequency Intelligent Controllerfor Vibratory Feeder

C

17

5.3.4 Output Frequency Parameter E Adjustment in Semi-Auto Mode

�

�

�

Press button and hold for 2

seconds to enter Basic Parameter

Adjustment Status.

The LED screen displays Output

Frequency Parameter E and its value.

Adjust the E Value by pressing or

button.

▲ ▼

" "FUNC

TYPE

SDVC34 M

:

-


Vol+ Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote



H CUH

CUH��

��

s buttobut

econds to enter Basic Paconds to enter Basic

Adjustment Status.Adjustment Status.

The LED screen dThe LED screen

Frequency ParFrequency P

Adjust thAdjust t

buttobu

" ""UNCUNCCUCncy Parameter Ecy Parameter

hCUCUUH

ntroller for Vibratory Feedoller for Vibratory Fee

CUH CUH

CUvaluealu

ssing orssing or▲ ▼▲ ▼oror CUH UHn Semi-Auto Moden Semi-Auto Mode

CUH CUH H

CUH CUHCUHCUHCUHCUHUUUUCUCUCUCUUUCUHCUH

TYPE

SDVC34

:

Stop

UUH+

UUol-

UHUHFUNC

Auto

Sync

Sensor

Sync ignal

unicate UUUUUUHUHUUHHHHHHHHHHHHHHHHHHHCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCU

CUH CUH C

UHU

CUH CU1717

C

CUHC

18

5.4 Sync Mode

In Sync Mode, sync signal wire must be connected between the Master and Slave Controller .Output Frequency of the controller (Slave Controller) is always consistent with that of MasterController. Output Voltage of the controller (Slave Controller) can be adjusted manually orautomatically.

s

Controller A

Controller B

Sync Mode apply to the situation that there are more than one controller controlling severalvibratory feeders in the feed system, output of the controllers are not synchronous so theyinterfere with each other (Beat Effect). Sync Mode is designed to eliminate Beat Effect asoutput waveform of Master and Slave Controllers are exactly synchronous.

Controller B is not set to Sync Mode, Output Waveforms of the two controllers are notsynchronous.

Controller A

Controller B

Controller B is set to Sync Mode, Output Waveforms of the two controllers aresynchronous.


Operating Mode

Sync Mode


AdjustmentMethod


Manual or Autoor


H CU

SyncSyncviCUH e, sync sie, sync

equency of theequency of thler. Output Voltageer. Output Voltag

matically.matically.

CUHCUCUHCUOperating ModSyncSync

CUwire muswire mu

ollCUH CUntroller for Vibratory Feedoller for Vibratory Fee

CUH UH

C

ContCon

CUH CCU

ller Aller A

the situation that therehe situation that therin the feed system, outpthe feed system, outp

ach other (Beat Effect)ch other (Beat Effeform of Master and Slavform of Master and Sla

HHHHHHhod

anual or Autoanual or Auto CUH between the Master andetween the Master and

oller) is always consiste) is always consistlave Controller) can belave Controller) can b

CUCUCUCColtage

Γ5 Setting

CUH HB is not set to Sync Mis not set to Syncnous.nous.

CUHController AController A

Co

CUH UH

CUCUHUHUCUCUCCUHCUCCUUU

desige exactlye exact CUe controller controllinontroller contro

are not synchronoure not synchrono eliminate Bo eliminate BhronoushronousCUH lly orlly o

HUHHUHUHCUUUUUUUCUHuency E

Γ6 Setting

nc withwithControllerController

CUH UHUHH

CUHUHCUHCUUHUHH

is set to Sync Modset to Sync Mo

CUH UHHH

CUeforms of the two contreforms of the two cont

CCC

CUHCC

CUHCU1818

CUH HHHorms of the two controlorms of the two contro

CUHCUUCCCCUH

C

19

5.4.1 Connection Method of the Sync Signal Wire between Master and SlaveControllers

Step 1：

.Open the cover plates of the signal control portsboxes of both controllers

Step 2:

.

Connect the Sync Signal Wire between Masterand Slave controllers according to the schematicdiagram below

C3

C2

C1

E3

2

1

E

E

D2

D1

F4

F3

F2

A1

A2

A3

A4

H1

H2

H3

H4

G1

G2

G3

G4

C3

C2

C1

E3

2

1

E

E

D2

D1

F4

F3

F2

A1

A2

A3

A4

H1

H2

H3

H4

G1

G2

G3

G4

Output-

Output+

Input-

Input+

SpeedCtrl

Sync

Preset

Master Controller Slave Controller

One Master Controller could drive several Slave Controllers.

ON/OFFCtrl

ON/OFFCtrl

24VCtrlOut

RS485

ON/OFFCtrl

ON/OFFCtrl

24VCtrlOut

RS485

SpeedCtrl

Sync

Preset


Sync Signal Wire

H CUH

CUHerser

ep 1p 1：Open the cover plates open the cover plates oboxes of both controboxes of both contr

Step 2:Step 2:Connect theConnect theand Slavanddiagradiag

CUCethod of the Synchod of the SynCUH CUntroller for Vibratory Feedoller for Vibratory Fee

CUHUHUHHH HHHHHHHHHHHHHC2C1EON/OFFCtrl

ON/OFF

ON/OFFCtrl

ON/O

CUH ire between Mre betweencording to the scheording to the sch

CCCCCCCMaster ControllerMaster Contro

CUHUHetween Master and Stween Master and S

trol portsol ports

CUHCCUCCCCCCCUCUCUHCUHHHUUHUHCUCUCUHCUHCUCUCUCUCUCUCUCUH HHHHHHHHHF4

3

F2 UHUHOutputOutput-

OutputOutput++

RS48585

CUH CUCCCCCCCCCCCCCCCCCCCCC

A3

A4

H1

H2

UHHHHHHHC3SpeedCtrl

SpeedCtrl

Sync

Sy

ON/OFFC

ON/OFF

CUH HCCCCCCCCCCCCCCCCCCCC

CUH UHUUUUUUUUUHHHH

CUCUntroller could dntroller could

SyncSync

CUHCCCUCUUUUUUUCUCUCUCUCUCUCUCUCCCCCCCCCC

H HHHHHHHHHHHHHHD2

D1

4

F3

F2

H

UHUHInputInput--

Inputnput++

VCtrlOut

CtrlOut

RS485

RS485

CUHCUCUCCCCCCCCCCCCCCA1

A2

3

SpeedCtrl

SpeedC

CUH CU1919

CCUHHHve Controllers.Controllers.

CUHUHCUHCCUCUCCCCCCCUCUHCUCUHHHUHUHCCCUHUHUUUHUHUU

G2

G3

G4

CCCCCCCCCCCCCCCC

Preset

Preset

C

20

5.4.2 Sync Mode Applications

MasterController

SlaveController

Output Power Cable ofthe Slave Controller

Output Power Cable ofthe Master Controller


AdjustmentMethod


Manual Manual


Sub-Pattern 1

Master Controller

Slave Controller Manual


Controller

SyncSignal

Wire

H CUH

CUHUH UUH

CUHHCUCU

ttern 1tern 1

Master ConMaster Co

Slave

Controller

CUCplicationsicationsCUH CUntroller for Vibratory Feedoller for Vibratory Fee

CUH UHHH

CUHSlaveSlaveControllerControllerUH UHHHUH

nualnua

ManualManual

Sync

Syn

CUH UH

CUCUCCUCUCCCCCltage U

Γ ting

CUH HCUHCUC

Output Power Cable ofOutput Power Cable ofthe Slave Controllerthe Slave Contro

Output Power CaOutput Power Cae Master Coe Master Co

CUCUH HUHHUHUHHUUCUUHUHUHUUUUUUCUHE

6 Setting

Sync withnc wither Controllerer Controlle

CUH CUH

CUHHCUHCU

CUH CU2020

C

CUHHC

21


AdjustmentMethod


Auto

Manual

Auto



AdjustmentMethod


Auto

ManualAuto Sync withMaster Controller

Sub-Pattern 2

Sub-Pattern 3

MasterController

SlaveController

Vibration Sensor Cable

VibrationSensor

Master Controller

Slave Controller

Master Controller

Slave Controller


Controller

Controller

Manual

SyncSignal

Wire Output Power Cable of

the Slave Controller

Output Power Cable ofthe Master Controller

H CUH

CUH UH

CUHHHCU

n 2n 2

SS

Master ControllMaster Controll

Slave CoSlave Co

Controller

CUCCCCUH CUntroller for Vibratory Feedoller for Vibratory Fee

CUH UHHHMasterMaster

ControllControl

SlaS CUCUCUCUCUUH HHHManualanual

CUHUHCUCUCUC

O

AdjustMj

aster Controllerer Controller

ntrolle

troller

CUH UH

CUHCUHCUCUCUCCCCCCC

O

Γ5 Setting Adju

CUCCUH CUCUCUCU

SyncSignal

Wire

SyncSignal

Wire

CUHHUHHUHUHHHCUUHUHUHUHUUCUH

Setting

A

r

MaM

CCUH HHHHUHHCUUHUHUHUHUHUHUHUUCUH

Setting

withwithontrollerller

CCCOutput Fret t

CUHCUUH HUHUHration Sensor Cableation Sensor CableH

er Cable ofr Cable oe ControllerController

Output Power Cable ofOutput Power Cable ofthe Master Controllerthe Master Controller

CUHCCC

CUHCUCUCUCUCUCUCUCCCCCCCCCCU

CUH CU2121

CH

CUCUHUHHC

22

Sub-Pattern 4


AdjustmentMethod


Auto

Manual


Master Controller

Slave Controller

MasterController

SlaveController


VibrationSensor


Controller

Manual

Output Power Cable of the Slave Controller

Output Power Cable of the Master Controller

SyncSignal

Wire

CUHC

n 44

UH UH

CUHHHCUMaster ControllMaster Controll

Slave CoSlave Co

Controller


CUH UHHH

CUH HHHAutoAuto

SlaveSlaveControllerController

SyncS

Sync

CUH UH

CUHCUHCUCUCUCCCCCC

O

Γ5 Setting Adju

CUH HCCCCCUHCUHCUHHH

bration Sensor Cableration Sensor Cable

Power Cable of the Slave Cower Cable of the Slav

wer Cable of the Maser Cable of the Ma

CUH HHHHUHHCUUHUHUHUHUHUHUHUUCUH

Setting


CUCVibrationVibrationSensorSensor

CUH CUHUHHH

CUHCU

CUH CU2222

C

CUHC

23


AdjustmentMethod


Auto Auto


Master Controller

Slave Controller Auto

Sub-Pattern 5

MasterController

SlaveController


Output Power Cable of the Master Controller

Output Power Cable of the Slave Controller

VibrationSensor

VibrationSensor


Controller

SyncSignal

Wire



AdjustmentMethod


Auto


Master Controller

Slave Controller Auto

Sub-Pattern 6

Controller

ManualH CUH

CUH UH

CUHHHCUMaster ControllMaster Controll

Slave CoSlave Co

n 5n 5

Controller

SubSub


CUH UHMasterMaster

ControllerControllerHHS CUH HHH

AutoAuto

CUHCUHCUCUCUC

Outp

AdjustMetj

aster Controllerer Controller

ontrollerontroller

ler

CUH UH

CUHCUHCUCUCUCCCCCC

O

Γ5 Setting Adju

CUH CUCUUCUCU

SyncSignal

Wire

SyncSignal

Wire

CUCUHHCUUH HHUHHHUHUHUHUHUHUHCUH

etting

AuA

MaM

CCCCCCUH HHHHUHHCUUHUHUHUHUHUHUHUUCUH

Setting


CCCOutput Frequstment

CUHUHUH HUHHHHCab

wer Cable of the Master Contrer Cable of the Master Contr

e of the Slave Contof the Slave C

ation Sensor Cablen Sensor Cable

CUHCCCUHCUHCUC

VibrationVibrationSensorSensor

CUHCUCUCUCUCUCUCCUCCCCCCCU

CUH CU2323

C

CUHCUHC

HCU

nsor C

24

5.4.3 Explanation of Some Auto/Sync Parameters

5.4.3.1 Max Adjustable Output Voltage Parameter

5.4.3.2 Acceleration Index

5.4.3.3 Waveform Index

5.4.3.4 Temperature Display Parameter

5.4.3.4 Controller Reset Parameter

5.4.3.5 Parameter Lock Password

Output Voltage Range is 0 to h V. Parameter h restricts Maximum Output Voltage to certainvalue to protect the vibratory feeder from high voltage caused by misoperation.Remote Speed Control voltage is also affected by this parameter.

Parameter y ranges from 100% to 150%. Input Voltage*y=Max Output VoltageOutput Voltage Value can be adjusted higher than Input Voltage Value by setting thisparameter. After setting, Max Output Voltage still won't exceed Parameter h value

Users can weight Max Efficiency (Max Power) and Min Noise by adjusting this index.

Display internal temperature of the controller in real time. Read only.

Reset all parameters to factory default by this parameter when necessary.

Lock all parameters except Output Voltage Parameter U/Feed Speed Parameter A byself defined password to prevent unauthorized operation.


H CUH x AdjustabAdjust

5.4.3.2 Acceleration I5.4.3.2 Acceleration I

5.4.3.3 W4.3.3

5.45

oltage Range isltage Range io protect the vibratoro protect the vibrat

ote Speed Control voltote Speed Control vol

Parameter y ranges farameter y rangesOutput Voltage VaOutput Voltageparameter. Afteparameter. Afte

Users cUsers

CUSome Auto/Syncome Auto/Syn

utput Vt tVCUCUUH


CUH ock alockself defineelf defi Crameter Lock Pameter Lock PCUtroller Reset Parametroller Reset Parame

CUHHHure Display Parameterre Display ParameteUH 0sted hited h

Output VoltaOutput Vol

Efficiency (Max Power)fficiency (Max Power

temperature of the conperature of the

parameters to factory darameters to fac

meters excemeters excesword

CUH UUUUUterer

tricts Maximum Outpus Maximum Ouh voltage caused by mish voltage caused by mi

ted by this parameter.ed by this parameter.

put Voltage*y=Mut Voltage*y=han Input Vhan Input Vll won

CUH CUH me

arameter when nerameter when

ge Parameter U/Feed Sge Parameter U/Feed Sthorized operationhorized operation.

CUH ai

ageagesetting thissetting this

meter h valueter h value

by adjusting this indexby adjusting this index

d only.d only.

CUH CUH C

UHA byy

CUH CU2424

C

CUHC

25

Chapter VI Signal ControlSignal Control includes:C Ports ON/OFF Control E Ports ON/OFF Control Remote SpeedControl Storage and Output of Preset Speeds RS485 Communication 24V DC ControlOutput

, ,, , and.

6.1 C Ports ON/OFF ControlOutput of the controller can be turned on or off by any kind of switch sensor or PLC via CPorts.

6.1.1 Connection Method of Different Kinds of Switch Sensors and PLC to C Ports

6.1.1.1 Connection Method of the Proximity Sensor to C Ports

C3

C2

C1

C3

C2

C1

E3

2

1

E

E

D2

D1

F4

F3

F2

A1

A2

A3

A4

H1

H2

H3

H4

G1

G2

G3

G4

SpeedCtrl

Sync

Preset

Step 1:Open the cover plate of the signal controlports box of the controller.

Step 2:Connect the proximity sensor to C Portsaccording to the diagram.

C3 +24V

C2 Input

C1 GND

The blue wire represents ground wireThe black wire represents signal wireThe brown wire represents power wire

Convention

Proximity Switch

ON/OFF

Ctrl

ON/OFF

Ctrl

24V

CtrlOut


RS485

H CUH

CUrol includeol inclu

torage and Outptorage and Outorage and Outptorage and Ou

C Ports ON/OFC Ports ON/OFutput of the controllerutput of the controller

PortsPorts..

6.1.1 Connection1.1 Connecti

6.1.1.1 Connecti6.1.1.1 Connect

StSt

CUhapter VIapter V

orts ONt OPCUH CUntroller for Vibratory Feedoller for Vibratory Fee

CUH UHH

Coaccoracc CUH H

feree

e ProximityProxim

plate of the signal contrlate of the signal conthe controller.ntroller.

p 2::the proximity sthe proximityto the diagto the diag

CUH al Controlal ControlE Ports ON/OFF ControPorts ON/OFF Contro

S485 CommunicationCommunicatioE Ports ON/OFF ContrPorts ON/OFF Cont

or off by any kind of swoff by any kind

inds of Switcnds of Switc

or to Ct

CUH C

HHHHHHHHUHCThe blue wie blueThe blackThe blacThe brThe brCUCUCUCCon

CUH CCU

C3 +24VC3 +24V

C2 InputC2 Input

GND

CUH CU

tro

PLC via CLC via C

PLC to C PortsPLC to C Ports

CUH UCUHnd wired wire

gnal wiregnal wirets power wires power wire

CUHCUH

UUHUHHCCUHUHUHCUHCUHUHUHUHUHCUHCUHUHUHCUCUUUCUCUUUCUCUUUCC

C3

C

C1HHHH

E3

ON/OFF

ON/OFF

Ctrl

Ctrl

ON/OFF

ON/OFF

Ctrl

Ctrl

Ctrl

Ctr

CUHCU

CUHCUCU2525

CUHUH UHUUHUHUUUUUUUUHUHHHHHProximity SwitchProximity Switch

CCCUCCCCCCCCCCCUHUHUHCCCUHCUHHHUHUHUHUHUUUHUHUUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCU

1

H

H3

H4

G1

G2

G3

CCCCCCCCCCCCC

Sync

Syn

Preset

Prese

C

26

6.1.1.2 Connection Method of the Photoelectric Couple Sensor to C Ports

C3

C2

C1

E3

2

1

E

E

D2

D1

F4

F3

F2

C3

C2

C1

E3

2

1

E

E

D2

D1

F4

F3

F2

+24V

Input

GND

+24V

Input

GND

Gray or Black

Brown+

Brown+

Black or Gray

Blue-

Blue-

White

Brown+

Brown+

Blue-

Blue-

BlackOUT


RX

TX

RX

TX

H CUH on

CUHCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUUUUUUUUCUCUUHHUHUHHHUHUHUHUHUHUHUUHUHUUUUUHCUHUUUUUUUCUCUCUCUCUCUCUCUUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUHUUHUUHUUHUHUHUHUHUUHUHUHUHUHUHUHUHUUHUUUUUUUUUUUUUUUURXRX

CUod of the Photood of the PhotoCCUCUUH


CUH HUHHHCUHCUHCUHCCCC

HHCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC

HHUHHUH HHHHHHHHUHUHHUHUHUHB

Brown+Brown+

Blue-Blue-

WhiteWhite

CUH Sensor to C Portsnsor to C Ports

UHCCGray or BlackGray or Blacky

lac

CUH CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCUHHUHHHHCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC

CUH CUCU

B

CUH HHHUHCCCUCUHCUHHHHHUUUHUHCUCUCUHCUHCUCUCUCUCUCUCUCUCCCCCC

C1

E3

2

1

E

E

D2

D

+24V+24V

InputInput

GNDGND

CUH HHC

HH

Blue-

Blue-

e-

CUH CUCUHCUHC

HUHUHUHUHHUHUHHHUHUHHHUUC3

C2

CUHCUCCCCC

CUH CU2626

CH

CUHUHCCUCUCUUUCUCUCUCUCUCUCUCUCUCUCUCUCCCCCCCCD1

F

F2

C

27

6.1.1.3 Connection Method of the Photoelectric Reflective Sensor to C Ports

C3

C2

C1

E3

2

1

E

E

D2

D1

F4

F3

F2

+24V

Input

GND

OUT

Black

Brown+

Blue-


H CUH

CUHHHHHHHHHHHHHHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHHHHHHHHHHHHHHHHHUHHHHHHHHHHHHHHHHHHHHHHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHCU

hod of the Photoelod of the PhotoCCUH CUntroller for Vibratory Feedoller for Vibratory Fee

CUH UH

CUH CUH

Sensor to C PortsSensor to C Ports

UHCCUCCUUHCCCCCCC

OUT

OUT

Black

Black

Brown+

Brown+

CUH CUH

CUCUH HUHHUHUHCUCUHCUHHHUUUHUHUUUHUHCUCUCUHCUHCCUCUCUCUCUCUCUCUCCCCCC

E3

2

1

E

E

D2

D1

+24V+24V

InputInput

GNDNDND

CUH CUH H

CUHCUCCCC

CUH CU2727

C

CUHC

28

6.1.1.4 Connection Method of the Fiber Optic Couple Sensor to C Ports

C3

C2

C1

E3

2

1

E

E

D2

D1

F4

F3

F2

+24V

Input

GND

RX TX

Fiber optic sensor

White or Black

Black or White

Blue

Brown


H CUH

CUHUHUHUHUHUHCUHHHHHHHHHHHHHHHHHHUHHHHHHHHHHHHHHHHHCUUUUUHHHHHHHHHHRXR

CUhod of the Fiber Ood of the FiberCCUH CUntroller for Vibratory Feedoller for Vibratory Fee

CUH UHH

Wh CUH UUUHUHHH

CCFiber optic sensorFiber optic sen

ackack

CUH sor to C Portsor to C Ports

UHUUUUUUUUUUUUCUCUCUCUUUUUUUUUUUUUUUUUCUCUCUCUUUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUUUUUTXTX

CUH UHUH

CHHHHB

CUH UH

CUHUCUCUUCUCUCUCUUUCUUCCUCUUHUHUHUHHUHCUHCUCUCCUCUCUCCUCCCUCCCCCCCUCUUUUUCUCUCBroBro

CUH HCCC

HUUHUHCUCUCUCUCUCU

CUH C

CUCUCUCUH UHUHUUHUUUUUUC3

C

CUCUHCU

CUHCU2828

CUHHHH HHHCCUHUHC

HHCCUCUUUCCCUCUCCCUCUCCCCCCCCCCCC

D2

D1

F4

DC

29

6.1.1.5 Connection Method of the PLC to C Ports

PLC

C3

C2

C1

C3

C2

C1

E3

2

1

E

E

D2

D1

F4

F3

F2

A1

A2

A3

A4

H1

H2

H3

H4

G1

G2

G3

G4

PLC

C3

C2

C1

C3

C2

C1

E3

2

1

E

E

D2

D1

F4

F3

F2

A1

A2

A3

A4

H1

H2

H3

H4

G1

G2

G3

G4

+24V

Connection Method of the NPN output of the PLC to C Ports

Input

GND

SpeedCtrl

Sync

Preset

SpeedCtrl

Sync

Preset

Connection Method of the PNP output of the PLC to C Ports

ON/OFF

Ctrl

ON/OFF

Ctrl

24V

CtrlOut

RS485

ON/OFF

Ctrl

ON/OFF

Ctrl

24V

CtrlOut

RS485

Relay output, NPN output and PNP output of the PLC, any one of them can turn on/offthe controller.


Input

H CUH

CUHUHUUC3UHHHon Method ofon Method CU

hod of the PLC tood of the PLC tCPN ouCUH CUntroller for Vibratory Feedoller for Vibratory Fee

CUH HUHConnection MConnection

CUH CCUCUCUHCUCUCUUCUCUCUUCUHCUHCUUHUHUHUHUHUHUHUHUHUHUHUHUHCUCUCUCUCUHUHUHUHHUH

InputInp

GNDGND CUH UH

CCCCUUUUUUUUUC3o C PortsC Ports

ON/OF

ONCtrl

CUH CUHHHHHHHHUHUHUHUHHC2

C1

UHCUCCUH CUUHHHHH HHHCU

++24V24V

output of the PLC to C Poutput of the PLC to C P

ut

CUH HCUCUHCCCCCCCCCCCCCCCCCCCCCCCC

HHCUHCUHHHHHHHUHUHUHUHUHUHUHUHUHUHCUHCUHUUCUCUUUCUCUCUCUCCUHUHUHUH

2

D1

F4

F3

A

A2

A3

A4

H1

H2

H3

H4

SpeedCtrl

SpeedCtrl

Syny

CCCUH CCUCUHUHUU

LC

CUCCCCCUCUCCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCCUCUCUCUCUUPN output anPN output an

CUHUHUHUHUHHHCUHCUHCUHUUUHUHUUUHUHUUUHUHCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCCCC

3

C2

1 HHHHH HHHHHHHHHHHE3

2

1

E

D2

D1

A1

AFFFF

ON/OFF

ON/OFF

Ctrl

Ctrl

24V

24V

CtrlOut

Out

RS

R

CUHCUCCCCCCC

CUHCUCU2929

CUH UHHhe PLC, any one of themhe PLC, any one of them

CCCCUHCCCUHUHCUHCCCCCCCUCUCCCCCCCUCUCUCUUUUUUUUCUCUCUCUCUCUCU

G1

G2

G3

G4

CCCCCCCCCCCCC

ync

ync

Preset

Preset

C

30

L6.1.2 C Ports ON Delay Parameter and C Ports OFF Delay Parameter L

If you want the controller to start outputting after a period of time since receiving the C PortsON Control Signal, adjust Parameter .If you want the controller to go on outputting for a period of time after receiving the C PortsOFF Control Signal, adjust Parameter L.

L

TYPE

SDVC34 M

:

-


Vol+ Vol-Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote

ON Delay Timeis set as 2seconds

C Ports ON Delay ParameteThe period of time from the controller receives the C Ports ON Control Signal to startingoutput.

L

�

�

�

Press button and hole for 2seconds to enter Basics ParameterAdjustment Status.

Press button 1 time to switch toParameter

Press or button to adjust thevalue. The parameter unit is second, andthe adjustment accuracy is 0.1.

" "

" ".

▲ ▼

FUNC

FUNC

L

L


TYPE

SDVC34 M

:

-


Vol+Vol+ Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote

OFF Delay Time isset as 1 5 seconds.

C Ports OFF Delay Parameter L:The period of time from the controller receives the C Ports OFF Control Signal to cuttingoff output.

�

�

�

Press button and hole for 2seconds to enter Basics ParameterAdjustment Status.

Press button 2 times to switchto Parameter L.

Press or button to adjust the Lvalue. The parameter unit is second, andthe adjustment accuracy is 0.1.

" "

" "

▲ ▼

FUNC

FUNC



H CUH

CUHON

t the controllethe controtrol Signal, adjustrol Signal, adju

want the controller towant the controller tF Control Signal, adjusControl Signal, adju

C Ports ON DelaC Ports ON DThe period of tThe period ofoutput.output.

��PressPrsecse

CUay Parameteray Parameter

tart oCUCUUH ntroller for Vibratory Feedoller for Vibratory Fee

CUH HUHC PortsC PortThe phe poff

CUH ntrollerntroll

and hole for 2d hole for 2ics Parametercs Parameter

s.s.

button 1 time to switcbutton 1 time to switc

or button to adjust tor button to adjust tue. The parameter unit isThe parameter uadjustment accuracy isustment accurac

..

▼▼ororor

L

CUH C

s OFF Delay ParametOFF Delay Paramet

a period of time since reriod of time since r

for a period of time aftfor a period of time af

ives the Cives the C

CUHCUH

��

button andbutton anenter Basics Paramenter Basics Para

ment Status.ment Status.

ss button 2 timss button 2 timo Parameter L.Parameter L.

Press or buttonPress or buttvalue. The paramevalue. The paramethe adjustmenthe adjustmen

"

" "

▲ ▼▲ ororor

CUH CUCUHH

s sseconse

ameter L:eter Le controller receivcontroller rece

or 2

CUH UH

C PortsC Ports

CUCUCCCUCUUUUUCUCUCUCUSaturated Speed A Speed B

CVoCR

CUCUCUCCCUCCCUCUCCCUCCCUCUCCCUCCCUUUCCUCUCy TimeTime

ol Signal to startingl Signal to starting

ble Frequency Intelligent Controllerfor Vibratory Feeder

CUH CU

, andand CUHUHUHUUSatUUH HHCCOFF Delay TimeOFF Delay Tim

set as 1 5 seconset as 1 5 seco

FF Control Signal to cuFF Control Signal to c

Variable Frequ

CUHCUCCCCCCCCCCCCCCCCCCCC

CUH CU3030

CH

CUHCUHCUHCUHCUHCUHCUCUCCCUUCUCUTYPE

SDVC34 M

: U-

UUFUNC

CUCUCUCUCUUUCUCUCUHCUHCUHCUCUCUCUUCUCUCUCUCUCUCUCUCUCUCU

C

31

TYPE

SDVC34 M

:

-


Vol+ Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote

TYPE

SDVC34 M

:

-


Vol+ Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote

�

�

�

Press and buttonssimultaneously and hold for 2 seconds toenter Advanced Parameter AdjustmentStatus

Press button 2 times to switchto Parameter .

Press or button to change thelogical relation.

▲

2

▲ ▼

Γ

" "

" "

FUNC

FUNC

Positive Logic

Negative Logic

6.1.3 C Ports ON/OFF Control Logical Relation Parameter 2ΓBy factory default, the controller runs when C Ports receives no signal. But in some otherapplications the controller needs to be stop when C Ports receives no signal.Adjust Parameter to meet either of the requirements.Γ2

Parameter is set to by default_ _ _Γ2

When Parameter is set to _ _ _, output of the controller will be on when C Portsreceives no signal.When Parameter is set to _ - _, output of the controller will be off when C Portsreceives no signal.

Γ

Γ

2

2




H CUH

CUH��

��

��

Press anPress asimultaneouslysimultaneouenter Advancenter AdvanStatusStatus

PressPrto Pto

" "" "HONO

efault, thefault, tns the controllns the contro

Parameter to mearameter to mΓΓ

CUF Control LF Control L

roller ruroller ruedsCUCUUH ntroller for Vibratory Feedoller for Vibratory Fee

CUH UH

Par CUH conjustmentustme

2 times to switchtimes to switch

utton to change theutton to change theon.

r is set tois set toΓΓ

CUCUUH on Parameter 2n Parameter 2ΓΓreceives no signal. Bureceives no signal. Bu

C Ports receives no sigorts receives no siguirements.uirements.

CUH CUCUUHCCWhen Parameterreceives no signa

en Pareceives

Γ

CUH CUH

CUHCUHCUCUUUUHUHUHUHCCCUCUCCCCCCCCUU

Stopeed A Speed B

CUCUVol

CUCUVol-CUUFU

Auto

c

ensor

Sync Signa

Communicate

emote

UHCUHCUHUUCUCCUUUUCUUCUCUUUUCUUCUCUUUHUHCUUCUUHUHUHUHUUHUHUHUHCUCUUUUCUCCCCCCCCCCCCCCCCCCCCCCCCUic

Intelligent Controlleratory Feeder

CUHUH UHHH

outpu

- _, output of thCUHUH

UH UHUHUHUHHHUHUHUHUHUHUHHH

TYPE

SDVC3

HHol+

HHHFUNC

Auto

Sync

Sensor

Sync Signa

nicateHHHHCCC

HHHHUHUHUHUHUHUHUHHUHUHUHUHUHUHUHUHHHHHVol

HHHHHHHHHHUHUHUHUHUHUHUHHcontroller

CUHCCCCCCStop CUCCCC

roller

CUH CU3131

C

CUHCUHCUHHC Ports

when C Ports

C

32

E3

E2

E1

6.2 E Ports ON/OFF ControlOutput of the controller can be turned on or off by any kind of switch sensor or PLC via E Ports

C Ports ON/OFF Control and E Ports ON/OFF Control are independent of each other.

C3

C2

C1

E3

2

1

E

E

D2

D1

F4

F3

F2

A1

A2

A3

A4

H1

H2

H3

H4

G1

G2

G3

G4

SpeedCtrl

Sync

Preset

6.2.1Connection Method of Different Kinds of Switch Sensors and PLC to E Ports

6.2.1.1 Connection Method of the Proximity Sensor to E Ports

Step 1:Open the cover plate of the signal control

ports box of the controller.

Step 2:Connect the proximity sensor to E Portsaccording to the diagram.

+24V

Input

GND

The blue wire represents ground wireThe black wire represents signal wireThe brown wire represents power wire

Convention

Proximity Switch

ON/OFF

Ctrl

ON/OFF

Ctrl

24V

CtrlOut

RS485

6 2 1 2 Connection Method of other kinds of Switch Sensors and PLC to E Ports are similarto those of C Ports.

. . .


H CUH

CUHUH ONOe controller ce controller

ON/OFF Control andN/OFF Control a

1Connection Method1Connection Method

6.2.1.1 Connection Meth.2.1.1 Connection Met

Step 1:Step 1:Open the cOpen the c

ports boport

SS

CUFF ControFF Contro

turnedCUH CUntroller for Vibratory Feedoller for Vibratory Fee

CUH HHHHEHUHCUCUH signal controsignal contr

err.

oximity sensor to E Porimity sensor to E Poo the diagram.the diagram.

CCCUH kind of switch sensor ornd of switch sensor or

ntrol are independent of etrol are independent o

nds of Switch Sensornds of Switch Sensor

ity Sensor to E PortsSensor to E Por

CUH HCCCUHUHThe blue wire repreThe blue wire repri

The black wire reThe black wire rThe brown wirThe brown w

CUHUHUHC tiC tiConventioC ti

CUHCCCUCUHHH

UHH24V24V

InputInput

GNDGN UHCUH

UHE PortsPorts

CUHUUUUUUUUUUUUCUH UH

r wirewi

HMethodMethod

orts

CUHUUUHUHUHCUHCUHHHHHUUUHUHUUUHUHCUCUCUHCUHCUCUCUCUCUCUCUCUCCCCCC

HHHHHHHHHHHHE3

2

1

E

E

D2

D

F4

FC

/OFF

OFF

l24V

24V

CtrlOut

CtrlO

RS485

RS485C

CCCCCCCCCA1 CUHCU

Speed

SpC

CUHCU3232

CUH HUHHProximity SwitchProximity Switch

f Switch Sensors andf Switch Sensors and

CCCUHCCCCCCUCUCUCUCUCUCUCUCUCUCUCUHCUHHHUHUHUHUHUUUHUHUU

G2

G3

G4

CCCCCCCCCCCCCUHUHPreset

Preset

CUHC

33

6.2.2 E Ports ON Delay Parameter - and E Ports OFF Delay Parameter L-

-If you want the controller to start outputting after a period of time since receiving the E Ports ON

Control Signal, adjust Parameter .

If you want the controller to go on outputting for a period of time after receiving the E Ports OFFControl Signal, adjust Parameter L-.

TYPE

SDVC34 M

:

-


Vol+ Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote

TYPE

SDVC34 M

:

-


Vol+Vol+ Vol-Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote

E Ports ON Delay Parameter -The period of time from the controller receives the E Ports ON Control Signal to startingoutput.

E Ports OFF Delay Parameter L-:The period of time from the controller receives the E Ports OFF Control Signal to cuttingoff output.

�

�

�


Press button 1 time to switch toParameter L-

Press or button to adjust the L-value. The parameter unit is second, andthe adjustment accuracy is 0.1.

" " ▲

" "

▲ ▼

FUNC

FUNC

.

E Ports ON/OFF Delay is the same with C Ports ON/OFF Delay by factory default.

E Ports ON/OFF Delay can also be set independently by adjusting Parameter andParameter L-.

-

Parameter L- is set as --- by factory default, meaning the same value with that of Parameter L

L

L

L

�

�

�


The LED screen displays Parameter -and its value.

Press or button to adjust the -value. The parameter unit is second, andthe adjustment accuracy is 0.1.

" " ▲

▲ ▼

FUNC

L

L

Parameter - is set to --- by default, meaning the same value with that of ParameterL L




L

ON Delay Timeis set as 2seconds

OFF Delay Time isset as 1 5 seconds.

L

H CUH

CUUHONO

he controllee contro

ignal, adjust Paramgnal, adjust Pa

want the controller to gwant the controller tontrol Signal, adjust Paramrol Signal, adjust Param

E PorE PTheTheoo

E Ports ON/OFF DelaE Ports ON/OFF Dela

E Ports ON/OFF DE Ports ON/OFFParameter L-.Parameter L-.

CUy Parametery Parameter

art outpt tCUH CUntroller for Vibratory Feedoller for Vibratory Fee

CUHUHU��

an

PressPresvalue. Thvalue.the adjustmthe adjust

Paramaram

CUH HParameter -arameter -rom the controller receom the controller rece

set

and buttonsd buttonseously and hold for 2 secoeously and hold for 2 sec

Advanced Parameter Adjudvanced Parameter Adjuus

LED screen displaysED screen displavalue.value.

but

▲▲andnd

▼

CCCUH ts OFF Delay Parames OFF Delay Parame

od of time since receivind of time since receivin

a period of time after reca period of time after re

Ports ON/OFF Delorts ON/OFF D

endently by adendently by a

CUHHCUHFF Delay ParamF Delay Para

d of time from the cond of time from the coput.ut.

�

��

Press and buess and busimultaneously and hosimultaneously andenter Advanced Parenter Advanced PaStatusStatus

PressssParameterParamete

PressPressval

" " ▲" " ▲andandand

"" UN

CCCCUH UHUH-

ond, andnd, and1..

default, meaning thefault, meaning th

ON Delay TimeON Delay Timeis set as 2is set as 2secondsseconds

CUCCCCCCSaturated RemoteCCCCCCCCCCUH s OFFOFF

CUON Control Signal to stN Control Signal to s

fault.fault.

ter ander an

ble Frequency Infor Vibrato

CUHC

HHo

ntnt

o switch towitch to

o adjust the L-adjust the L-r unit is second, andnit is second, and

curacy is 0.1.curacy is 0.1.

is set as --- by factoryset as --- by facto

OFsetse

CUH HHHHHHPE

SDVC34 M

:

HHHUHUHhe E Ports OFF Controlhe E Ports OFF Contro

that of Parameterhat of Parameter LL

CUHCCCCCCCCCUCCCCCC

CUHCU3333

CUHUHg the same value with thathe same value with th

CUHCUCUCUCUUUCCCCCCCCCCCCCUCU

Stop

CCUol+

CCV

CUCUAuto

Sync

Sensor

Sync Sign

CommunicateCCCCUCUCCCUCUCCUUCUUCUCUUUUCUUCUCUUCUCUCUCCCCCCCCCCCCCCCCCCCUHUHCU

g C

34

6.2.3 E Ports ON/OFF Control Logical Relation Parameter 7Γ

By factory default, the controller runs when E Ports receives no signal. But in some otherapplications the controller needs to be stop when E Ports receives no signal.

Adjust Parameter 7 to meet either of the requirements.Γ

Parameter 7 is set to by defaultΓ _ _ _

When Parameter 7 is set to , output of the controller will be on when E Portsreceives no signal.When Parameter 7 is set to , output of the controller will be off when E Portsreceives no signal.

Γ

Γ

_ _ _

_

_

_

TYPE

SDVC34 M

:

-


Vol+ Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote

TYPE

SDVC34 M

:

-


Vol+ Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote

Positive Logic

Negative Logic

�

�

�

Press and buttons

simultaneously and hold for 2 seconds to

enter Advanced Parameter Adjustment

Status

Press button 3 times to switch

to Parameter 7.

Press or button to change the

logical relation.

▲

▲ ▼

Γ

" "

" "

FUNC

FUNC




CUHCUH

ONO

default, thefault, thons the controllens the contro

t Parameter 7 to meParameter 7 to mΓΓ

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on 3 times to switchn 3 times to switch

button to change theutton to change t

lation.lation.

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on Parameter 7on Parameter 7ΓΓ

s receives no signal. Bureceives no signal. Bun E Ports receives no sigorts receives no

quirements.quirements.

CUH CCCCCCCWhen PreceivWh

CUH ult

CUH UH

CUHCUHCCUUUHUHUHUHCCCCCCCCCCCCUUUUStopSpeed A Speed B

CUCUVol+CUCUCUAuto

Sync

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Sy

Remote

CUCUCUCUCUCCCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUUUUUUUUUUCUCUUUCUCUCUgic

e Frequency Intelligent Controllerfor Vibratory Feeder

CUHCUH CUHCU

et to , output of th

7 is set to , output

CUH UHUH UHUHHHUUUHUHUUUUUHUHUHUHHH

ated Speed

UHHVol+

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HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHUUHLogicLogic

for V CUHCUCCCCCCer

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be on when E Ports

be off when E P

C

35

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

TYPE

SDVC34 M

:

-


Vol+ Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote

TYPE

SDVC34 M

:

-


Vol+ Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote

TYPE

SDVC34 M

:

-


Vol+ Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote

6.3.1 Logical Relation Parameter of C Ports and E Ports

Parameter determines the reaction of the controller when both C Ports and E Ports are effective.

∏

∏

�

�

�

Press and buttonssimultaneously and hold for 2 secondsto enter Advanced ParameterAdjustment Status.

Press button 8 times to

switch to Parameter .

Press or button to change thelogical relation.

▲

▲ ▼

" "

" "

FUNC

FUNC

∏

Logical Relation AND

Logical Relation OR

Logical Relation XOR

：

：

：

Output of the controller will be ON onlywhen both the Ports require thecontroller to run

Output of the controller will be ONwhen either or both of the Ports requirethe controller to run

Output of the controller will be ON onlywhen one of the Ports requires thecontroller to run and the other requiresthe controller to stop.

6.3 Common Parameters of C Ports and E Ports

AND

OR

XOR





Default Logical Relation is OR.

H CUH��

��

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Press anPress ansimultaneouslysimultaneouto enter Advato enter AdvAdjustmenAdjustmen

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" "" "

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UNCUUH cal Relationcal Relatio

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CUHn P CameteCUH

ameters of Cmeters of CCUntroller for Vibratory Feedoller for Vibratory Fee

CUHUHUH UHLogical R

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times toimes to

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utton to change theutton to change theon.

∏∏

CC

CUUUCUH s and E Portsand E Ports

er when both C Ports andr when both C Ports a

CUE PortsE Port

CUCCUHCU

on OR

cal Relation

e controller will bher or both of the Portsroller to run

Output of the controwhen one of the P

rollerthe contro

HHHHCUHHHH HHHHHHHCUCUbe ON only

he

CCCCCCCCCUHUUUUCUCUCCCUCUCUCUCCCCSaturated Stopd BRe CCUHUHUH tive.ive

UHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUUHCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC


CUH CUHUH

ly

uires

Relation is ORRelation is OR..

CUHCUHCUHCUHCUHCUCUCUCUCUCUCUCUCUCUUUTY

SD

UHUHVol+

UUHol-

UHUHFUNC

Au

Sync

Sensor

Sync Signal

ommunicateUUUH UHUHHHHHHHStopSpeed A Spe

UHUHUUUUHUHUHUUHHHUHUHHUHUHHHUHUHHUHUHHHUHUHHUHUHHUHUHUHUHUHOO

gent Controllereder CUCCCCCUH

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CUHCU3535

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SDVC34 M

:

UHCUHCCCCCCCC

Vol-

CCNC CCCCUHUHCUUCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC

XORXOR

C

36

TYPE

SDVC34 M

:

-


Vol++ Vol-Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote

TYPE

SDVC34 M

:

-


Vol+ Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote

�

�

�

Press and buttonssimultaneously and hold for 2 seconds toenter Advanced Parameter AdjustmentStatus.

Press button 7 times to switch toParameter A.

Press or button to change the Avalue.

▲

Γ

▲ ▼ Γ

" "

" "

FUNC

FUNC

�

�

�


Press button 5 times to switch toParameter 4.

Press or button to change the 4value.

▲

.

Γ

▲ ▼ Γ

" "

" "

FUNC

FUNC

6.3.2 Switch Sensor Type Parameter AΓ

The controller can automatically recognize type of the Switch Sensor, NPN or PNP.Users can also set the Switch Sensor Type manually.

6.3.3 Whether or not output of the controller is controlled by ON/OFF Control SignalParameter 4Γ

_ _ _ means correlated

means not correlated___

Parameter 4 is set to by factory defaultΓ _ _ _

Uto:

nPn:

PnP:

Switch Sensor Type automatic recognition

NPN Type Switch Sensor

PNP Type Switch Sensor




H CUH

��

��

Press and bPress andsimultaneously and hosimultaneously and henter Advanced Paenter Advanced PaStatus.Status.

PressPressParameteParamete

PressPvav

▲▲" "" "

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can acanso set the So set th CU

r Type ParametType Parameatically recoatically recoh SensoSCUCUUH


CUHHUH�PrPUH6.3.3 Whether6.3.3 WhetheParameterParameter ΓΓ

CUH to switcho swit

to change the Ao change the AAAA

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nPn:nPn:

PnP:PnP

Switch Sensor Type aSwitch Sensor Type

NPN Type SwitchNPN Type Switch

PNP Type SwiP Type

CUtot CUHCUUH

e Switch Sensor, NPN oSwitch Sensor, NPN oy.

CUH nd holdnd hod Parameterd Paramet

button 5 times tobutton 5 timesmeter 4.meter 4.

Press or button toess or button tovalue.value.

ΓΓ444

▲▲ ororor

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seconds toseconds totmentCCUH

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C34 M

Stop

UUHol+

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Sync S

nicate

CCCUUUUUUUUUUUUUUUUUUUUCUCUH CUCUCUCUCUCUCCCCCCCUCUCCUCUCUCUCUCUCUUHUHUHUUUUUHHUHHUHUHHUUHUHUH

CUH UHPaPa

CUH UHUHHHHHUHUHUHUHSatu Speed A Spe

UVUmote

UHUHUHUUUHUUUHUHUUUHUUUHHHHUHUHHHHFF ContrFF Con

ariable Frequency Intelligent Controlfor Vibratory Feeder

CUHCU

gnalgnal

CUH CU3636

C

CCCUHCUCUUUCUCUCUCUCUCUCUUUUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUUHUH

to by factory defaulby factory

C

37

6.4 Remote Speed Control

Output Voltage/Feed Speed can be controlled by a potentiometer or a 1-5V/4-20mADCControl Signal remotely.

PLC

C3

C2

C1

E3

2

1

E

E

D2

D1

F3

F2

F1

A1

A2

A3

A4

H1

H2

H3

H4

G1

G2

G3

G4

C3

C2

C1

E3

2

1

E

E

D2

D1

F4

F3

F2

A1

A2

A3

A4

H1

H2

H3

H4

G1

G2

G3

G4

SpeedCtrl

Sync

Preset

SpeedCtrl

Sync

Preset

Connection Method of the Remote Speed Control Potentiometer

Connection Method of the Remote Speed Control PLC

A1

A2

A3

Ground Wire of the Remote Speed Control

Remote Speed Control Input

Remote Speed Control Power Supply

Please select linearity potentiometerwith the resistance of 1k.

Note:

Remote SpeedControl Input

Ground Wire of theRemote Speed Control

Remote SpeedControl Power Supply

A1

A3

A2

A1

A2

A3

GroundWireof theRemoteSpeedControlRemoteSpeedControl Input

When Remote Speed Control voltage exceeds 0.5V, it becomes effective to thecontroller while Vol + and Vol- buttons lose efficacy.In the process of Remote Speed Control, the Remote Speed Control Indicator will lightup and the LED Screen will display Output Voltage/Feed Speed and its value.

" " " "ON/OFF

Ctrl

ON/OFF

Ctrl

24V

CtrlOutRS485

ON/OFF

Ctrl

ON/OFF

Ctrl

24V

CtrlOut

RS485


H CUH

CConnectionConnectionUH

e/Feede/Fenal remotelnal remot

Hhen Remote Speed Conen Remote Speed Cocontroller while Vol +ontroller while VolIn the process of RemIn the process of Reup and the LED Scup and the LED Sc

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CUeed Controled Control

d can be cod can be coCUH CUntroller for Vibratory Feedoller for Vibratory Fee

CUH UHHHH

PleasePlewith thewith t

N CUH emote Speed Comote Speed C

CCUCUCGround Wire of the RemoteGround Wire of the Remot

Remote Speed ControlRemote Speed Con

Remote Speed ConRemote Speed Con

CCearity potenearity potenof 1k.

CPoteCUH tentiometer or a 1-5V/4entiometer or a 1-5V/4

CUeds 0.5V, it becomes efeds 0.5V, it becomes etons lose efficacy.ons lose efficacy.

ol, the Remote Speed Cthe Remote Sptput Voltage/Feedut Voltage/Fee

CUH CCCUCCCCCCCCCCCCUCUCUUC

HMethod of the Remotethod of the RemHUHUHUHUHUUUUUUUUHA1

A2

A3

CUH CCUCUHCCCCCCCC

Remote SpeeRemote SpeeControl InControl In

CCCCCUCUCUCUCCCCCCCCCCCCCCCCGround Wire of theGround Wire of

Remote Speed ContRemote Speed Cop

RemotReControlContr

A1A1

A3A3

A2A2

CUH CUHCUHUUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCCCCCCCCCCCCCCC2

C1 UHUHUHUHUUUUUUUUUUUU1E

D2

A

CUCUCUCUCU S

r will lightwill lightlue.ue.

ON/OFF

N/OFF

Ctrl

Ctrl

ON/OFF

ON/OFF

Ctrl

Ctrl

242

CC

CUH CUCCCCCCCCCCCCCCCCCCCCCC

rol I CUH HHHHHHHCUUUUUUUUUUUUUC3C2CUCeedControldControl

ON/OFF

ON/OCtrl

C

CUHCCUCUCCCCCCCCCCCCCCCCCCCCCCCCC

G2

G3

G4

Preset

Preset

CUH CU3737

CHUHHH

CUHCUCCCCCCCCCCCCCCCCCCCCCUHCUHHHHHUHUHUUUHUHUUUHUHUUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCCCCUHUHHH

F4

F3

F2

3

A4

H1

H2

H3

4

G1

G2

CCCCCCCCCCCCUH

peedCtrl

peedCtrl

Sync

Sync

Pr

Pr

C485

C

38

. -

~

0 5 1V

5V

V

1

Remote Speed Control Signal Output Voltage/Feed Speed

less than 0.5V Controlled by Vol+ and Vol- buttons

Output Voltage: 0V/Feed Speed: 0

Controlled by Remote Speed Control Signal

Output Voltage/Feed Speed is Linearly

Controlled by Remote Speed Control Signal


H CUHUH

CUHCUCUHHHC

mote Speed Cont

less than 0less than

CUCCCUH CUntroller for Vibratory Feedoller for Vibratory Fee

CUH CUH HUHH

CUHUHVV

ConC

CUH CUHUHCUCOutput Voltage/Fee

Controlled by VControlled by

utpu

CUH CUH H

CCCUH HHUHUHCU

onsns

d Speed: 0peed: 0

peed Control Signaleed Control Signal

Feed Speed is Linearlyd Speed is Linea

e Speed Control SSpeed Control

CUH CUH C

UH

CUH CU3838

C

CUHC

39

6.5 Storage and Output of Preset SpeedsThe controller can store and output 4 different Preset Speeds. The 4 kinds of ON/OFFcombination of Speed A Indicator and Speed B Indicator correspond respectively to Speed 1,Speed 2, Speed 3 and Speed 4.

Preset Speed

Speed 1

Speed 2

Speed 3

Speed 4

G1 & G2 Ports G3 & G4 Ports

Speed A Indicator Switch 1 Speed B Indicator Switch 2

ON

OFF

ON

OFF

Closed

Open

Closed

Open

Open

Closed

Closed

Open

OFF

ON

ON

OFF

A1

A2

A3

A4

H1

H2

H3

H4

G1

G2

G3

G4

G1

G2

G3

G4

SpeedCtrl

Sync

Preset

GND

Speed A

B

GND

Speed

Connection Method of Preset Speeds

Storage of Preset Speeds

Output of Preset Speeds

Take the storage of Speed 1 for example:Close S1, Speed A Indicator lights up, open S2, Speed B Indicator goes offTo get desired feed speedIn Manual Mode, adjust Output Voltage parameter U and Output Frequency parameter EIn Auto Mode, adjust Feed Speed parameter AIn Semi-Auto Mode, adjust Feed Speed parameter A and Output Frequency parameter ESpeed 1 stored automatically

Take the output of Speed 1 for example:Close S1 again, Speed A Indicator lights up, open S2 again, Speed B Indicator goes offThe controller will output Speed 1 instantly

●

●

●

●

●

:


S1

S2

CUH CUHCUHCUCUCC

HCUH

can scann of Speedof Spee

Speed 3 and Spepeed 3 and S

Preset Speed

SpeedSpeed

S

CUd Output of PrOutput of P

nd output 4 dnd output 4 dicator acator aCUH CUntroller for Vibratory Feedoller for Vibratory Fee

CUH UH

CUH HHHUHCUHCUH

ONON

OFFOFF

ONON

OFFOF

tion Method of Preset Son Method of Preset S

CUH CUCUCCCUCCU

dssSpeeds. The 4 kinds of OSpeeds. The 4 kinds of

cator correspond respeator correspond respe

2 Port

Switch 1

Closedl d

CUCUH ge of Preset Speedse of Preset Speeds

OutpuO t

ke the storage of Speed 1ke the storage of SpeedClose S1, Speed A Indicaose S1, Speed A IndicTo get desired feed spTo get desired feedIn Manual Mode, aIn Manual Mode, aIn Auto Mode, aIn Auto Mode, aIn Semi-Autoemi-ASpeed 1 stoSpeed 1 s

Ta

●●

CUH CCCCCCCCCCCUCUHCUCU1

G2

G3

G4CCCGNDGND

Speed ASpeed A

GND

S

CUH UHUHUH

CUCUCH

CUUHrts

r Switch 2

OpenOpen

ClosedClose

Cl

ONON

ONON

OFFOFF

CUCCUHeedseds Hage paramege param

parameter Aparameter Aed Speed parameter A ad Speed parameter A

y

Speed 1 for example:1 for example:Speed A Indicator lights uSpeed A Indicator lightswill output Speed 1 instawill output Speed 1 insta

CUHH HHHH H HHHUHHHHHHUHUHUHUHUHUHUHSpeed B Indicator gpeed B Indicator

and Outd O

S1S1

S2S

CUHCUCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC

A2

A3

A

H

H2

H3

SpeedCtrl

eedCt

Sync

Sync

CUH CU3939

CUHHSpeed BSpeed CUHUHrameter Eameter E

cy parameter Ecy parameter E

cator goescator goes

C

40

6.6.1 RS485 Communication Address ParameterParameter represents ID number of the controller in RS485 communication.Range of the parameter: 1 to 31Make sure CommunicationAddress of all controllers in the same network are different to distinguishcontrollers from each other.

TYPE

SDVC34 M

:

-


Vol+ Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote

TYPE

SDVC34 M

:

-


Vol+Vol+ Vol-Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote

6.6 RS485 CommunicationAll parameters of the controller can be adjusted remotely via RS485 Communication Ports.

6.6.2 RS485 Communication Baud Rate ParameterRS485 Communication Baud Rate can be: 3, 12, 24, 96, 192, 576 or 1152.Unit: 0.1 KbpsDefault Value: 9.6 KbpsControllers in the same network should use the same Baud Rate.

6.6.3 RS485 Communication Protocol

www.cuh-controller.com.RS485 Communication Protocol is available in the Download column of our official website

�

�

�


Press button 13 times to switch toparameter

Press or button to change the value.

▲

▲ ▼

" "

" "

FUNC

FUNC

�

�

�


Press button 14 times to switch toparameter .

Press or button to change the value.

▲

▲ ▼

" "

" "

FUNC

FUNC




H CUH

CUS485 Communic485 Commun

meter represents ID numeter represents ID nange of the parameter: 1 tnge of the parameter: 1

Make sure CommunicatMake sure Communicatcontrollers from eachontrollers from each

CoCters of the coers of the

UH��PressPresssimultasienteenSS

""

CUunicationunication

ler caCUCUUH ntroller for Vibratory Feedoller for Vibratory Fee

CUHHU6.6.2 RS4856.6.2 RS485RS485 CommRS485 CommUnit: 0.1 KUnit: 0.1Default VDefaultContrCo

CUCCUH Honsons

d for 2 seconds tofor 2 seconds tometer Adjustmentmeter Adjustment

button 13 times to switchbutton 13 times to switc

or button to change thor button to change toror

CUH C

ameterameterroller in RS485 communoller in RS485 commun

ontrollers in the sametrollers in the sam

motely via RS485 Comotely via RS485 Com

CU

CUCUHHe nee

�

��

and buttonsand buttoneously and hold for 2 sneously and hold for 2

r Advanced Parameter AdAdvanced Parameter Adatustus

Press button 14ess button 1parameter .parameter .

Press or buPress or bu

▲▲

▲▲ ororor

""

" "" "

NCC

UNCUN

CUCUCUHCUC

HHH n Baud Rate Paramn Baud Rate Param

Rate can be: 3, 12, 24,Rate can be: 3, 12, 24,

k should use thk should use t

CUH UHrent to distinguishrent to distinguish

CUHCUHCCCUCUCUCUCUCUCCCCCCCCCC

Saturated StopSpeed A peed B

CCVCCVoCCAuto

Sync

Remote

CUCUCCCCCCCCUCUCUCCCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCCy Intelligent Contro

ory Feeder

CUH CUommunication Protmmunication Prot

Htroller.com.roller.com.

unication Protocol is avcation Protocol

e value.e value.

HHCUH

UHCUCUUUUCUCUSaturated Remote

CUCUCUCCUCUUU152.152.

te.e

Variable Frequency Intfor Vibrator

CUHCUCC

CUH CU4040

CHownload column ofwnload column o

CUHCUHCUCUCUCUCUCUCC34 M

ate

CCCCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCCCC

C

41

D2

1D

6.7 24V DC Control OutputThe controller can output 24V DC Control power to drive a solenoid valve, an electrical relayor a PLC etc coordinating with C Ports/E Ports ON/OFF Control.

6.7.1 Connection Method of the 24V DC Control Output

Connection to a solenoid valve:

C3

C2

C1

E3

2

1

E

E

D2

D1

F4

F3

F2

A1

A2

A3

A4

H1

H2

H3

H4

G1

G2

G3

G4

SpeedCtrl

Sync

Preset

SolenoidValve

+24V

Output

The controller can drive a solenoid valve which rated voltage is 24V and rated power upto 4W.

C3

C2

C1

E3

2

1

E

E

D2

D1

F4

F3

F2

A1

A2

A3

A4

H1

H2

H3

H4

G1

G2

G3

G4

D2

1D

SpeedCtrl

Sync

Preset

Connection to an electrical relay:

+24V

Output

Electrical relay


The controller can drive an electrical relay which rated voltage is 24V and rated power upto 4W.

ON/OFF

Ctrl

ON/OFF

Ctrl

24V

CtrlOutRS485

ON/OFF

Ctrl

ON/OFF

Ctrl

24V

CtrlOut

RS485H C

UH CUH

C CCler can outpler can ou

etc coordinatingetc coordinatin

1 Connection MethodConnection Metho

Connection to a solConnection to a so

CUrol Outpurol Outpu

V DCCCUH CUntroller for Vibratory Feedoller for Vibratory Fee

CUH HUHUHUHUHThet

CUH UHUHUUUUH

CCUCUUUCUHCUHCCCCCC

HHHHHHHHUHHD2

1D

SolenoidValve

CUH CCCo drive a solenoid valvedrive a solenoid valv

ON/OFF Control.N/OFF Control.

C Control OutputC Control Output

+242

CUH C

HHHHn to an electrical relayto an electrical rel

CUH UHUUUHUUUUCUCUCa solenoid valveC

CUH UH

CUHCUCUUUUUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCCCCCCCCCCCCCCCCCC2 UHUHUHUHUHUHUHUHUHUHUHUHUUUUUUUUUUUUE3

2

1

E

D1

F4

A

A

CCCC

SpeedC

Spee

FF

ON/OFF

ON/OF

Ctrl

Ctrl

24VV

CtrlOut

CtrlOut

RS4

R

CCCCCUH CUCUCUCUHUUHlay

er can drive an e

CUHUH UHUH4V and rated pow

UHCUUUUUUUUUC

CUCC+24V+24V

OutputOutpu

ON/OF

ONCtrl

C

CUHCCCCUCUCCCCCCCCCCCCCC

et

CUHCU4141

CUHUHUHHHHHrated voltage is 24V

CUHCUCUHCUHCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCUHCUHHHHHUHUHUUUHUHUUUHUHUUCUHCUHCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUCUUHUH

F4

F3

F2

A3

H1

H2

H3

H4

G1

G2

G3

CCCCCCCCCCCCCCUCUCUCU

SpeedCtrl

peedCtrl

Sync

Sync

Prese

Pres

485

C

42

TYPE

SDVC34 M

:

-


Vol+ Vol-Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote

TYPE

SDVC34 M

:

-


Vol+ Vol-

FUNC

Auto

Sync

Sensor

Sync Signal

Communicate

Remote

If Parameter 3 is set to , 24V DCControl Output will be on when Output ofthe controller is on.

If Parameter 3 is set to , 24V DC

Control Output will be off when Output ofthe controller is on.

Γ

Γ

_ _ _

_

_

_

6.7.2 Logical Relation of the 24V DC Control Output

�

�

�


Press button 4 times to switch toparameter 3.

Press or button to change the logicalrelation.

▲

Γ

▲ ▼

" "

" "

FUNC

FUNC

Positive Logic

Negative Logic




H CUH

CHH��

��

ss ands andsimultaneously and holdsimultaneously and holenter Advanced Paramenter Advanced ParamStatusStatus

PressPressparameter 3parameter

PressPressrelationre

ΓΓ

▲▲

" "" "

" "" "

CCCUn of the 24V DCof the 24V DCCUCUUH


CUHUHUH UH

IfContrthe cont

If Param

Conthe

CUH CC3 i

Ho

ange the logicaange the logi CUH UHutut

toto

CUH UHHH

CUH CUCUDCut of

, 24V DC

when Output ofUUNN

CUH CUHCUHCUCUHHCCCCCCCCCCCCCUCU

E

VC34 M

:

Stop

UUHVol+ UUVol-UHUHUNC

Sy

Sensor

Sync

municate

CCUUUUHUHUHUHUUUUUUUUUUUUUUUUHUHUHUHUHUHUHUUUHUHUUUUUUUCUCUCUCCUCUCUCUCCCCCCCUCUCCUCUCUCCCCUU

CUH CUH UHUHUHUHHHUHUHHHHHUHUHHHHHTY

SDVC34 MH+

HHFUNC

Auto

Senso

Sync Sign

mmunicateHHHHHHHHHCU

UHUHUHUHUHUHUHHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUHUH

CUHCC

op

CUCCCCCCCCCC

CUH CU4242

C

CUHHC

7.1 Automatic Voltage Regulation:

7.2 Short-Circuit Protection

7.3 Overcurrent Protection

7.5 Overload Protection

7.6 Overvoltage Protection

Eliminate both feed speed variation caused by mains voltage fluctuation and beat effect caused byindustrial AC frequency.

If output of the controller is short-circuited, the controller will stop its output and display Err01on the LED screen until restarted.

If output current exceeds its rated value by misoperation, the controller will stop its output toensure operating safety and display Err02 on the LED screen.

If internal temperature of the controller exceeds 65 , the controller will stop its output to protectitself and display Err02 on the LED screen until internal temperature fall below 60 .

When Vibration Sensor is connected to the controller, if vibration amplitude exceeds MaxAmplitude Index setting, the controller will turn down its output to protect the vibratory feeder.

If input voltage is much higher than rated input voltage range, fuse inside the controller will beblown to protect the controller from further damage. Please contact us for repair.

7.4 Overheat Protection

℃℃

43

Chapter VII Security Functions


H CUH omatic Vomatic

7.2 Short-Circ7.2 Short-Circ

7.37.3

te both feed speed ve both feed speetrial AC frequency.trial AC frequency.

If output of the cIf output of theon the LED scon the LED sc

I

Cage RRCUpter VII Ster VIICUH CUntroller for Vibratory Feedoller for Vibratory Fee

CUH7.5 Overlo7.5 Overl

nttself antself

When VibraWhen VibrAmplitudAmplitu

Ctemperature of themperature of tplay Err02 oplay Err02 oCUH io

nt Protectionnt Protection

t-circuited-circuited.ed.

exceeds its rated value beeds its rated value bng safety and display Erng safety and display E

verheat Protectionrheat Protec

CUHains voltage fluctuationains voltage fluctuati

controlleontrolle

Hty Functionty Functio

CUHltage Protecltage Prote

age is much higher thange is much higher thaprotect the controller frorotect the controller fro

CUH onon

n

creencree

eeds 65 , the controllereds 65 , the controllen until internal temperatn until internal temper

nnected to the controlleected to the contcontroller will turn dntroller will tur

℃

CUH ausedaus

tput and display Err01put and display Err01

ntroller will stop iroller will stop

CUH CUHmplitude exceeds Maplitude exceeds M

o protect the vibratory fo protect the vibratory

ge range, fuse inside thege range, fuse inside thege. Please contact us for. Please contact us for

CUHput to protectut to protect.℃

CUH CU4343

C

CUHe C

44

SDVC34 M Unit: mm-

Appendix A: Dimensions


Appendix

H CUH 34 M Unit: mm34 M Unit: mmHdix A: Ddix A: D CUH

ensioiCUntroller for Vibratory Feedoller for Vibratory Fee

AppA

CUH

CUH x

C

UH

CU

CUH

CUH CU4444

C

CUHC

45

SDVC34 XL- Unit: mm


H CUH

CUH m CUntroller for Vibratory Feedoller for Vibratory Fee

CUH C

UH

CUH

CUH

CU

UH CUH

CUHCU4545

C

CUHC

46

SDVC34 U- Unit: mm


H CUH

CUCUCUUH ntroller for Vibratory Feedoller for Vibratory Fee

CUHC

UH

CU

UH

C

H CUH

CUHCU4646

C

CUHC

47

Appendix B:Electrical Specification

ItemRange

UnitMAXMIN

Description

Output Voltage

Output VoltageAdjustment Accuracy

Output Frequency

OutputFrequencyAdjustmentAccuracy

Output Waveform

Output Current

Output Power

ON/OFF Delay

Soft Startup

DC Control Output Voltage

DC Control Output Current

Control Method

Display Method

Stand-by Power Consumption

0 260

1

25 400

0 1.

10 0

26

200

3 0

5 0

.

.

.

0

0 1

0

22

1 5

.

.

V

V

HZ

HZ

A

VA

S

S

S

V

mA

W

V

V

6 Buttons plus LED Control Panel

Switch Signal Input Output/

Analog Signal Input

LED Digital Tube

3 0

6 0

10 0

.

.

.

SDVC34-M

SDVC34 XL

SDVC34 U

-

-

660

1320

2200

SDVC34-M

SDVC34 XL

SDVC34 U

-

-


sine

2 0.

1 0. 5 0.

0 24

24V DC Control Power Supply

24V DC Control Power Supply

ON/OFF Delay AdjustmentAccuracy

H CUH x B:x B

CUHHCUCUUHUHC

HC

ItemItem

Output VoltageOutput Voltage

Output VoltageOutput VoltAdjustment AccuraAdjustment Ac

Output FrequOutput Freq

OutputFutputFAdjustmA

O

CUectrical Sectrical SCCUH CUntroller for Vibratory Feedoller for Vibratory Fee

CUH UHHUHUHUHON/OFF DON/OF

SoSo

DC CD

ON/OFF Delay AON/OFF DelayAccuAcc

CUHCUCCUHCUCUUHUHUH

UHHHHHUHUHnt

put Powerut Power

4

0 10 1

3 03

sinesine

CUH ionion

CUCCCCUCUCCCCCCCUnitUnit

X

260 VV

VV

HZHZ

CUH CUHHHUHUH

urrentrent

Control MethodControl Method

play Methoday Metho

Consumptionnsumption 1 51

CUCUCUCCCUCCCCCCUH CUCUCUHHUCUUC

HH10 00 0

2626

11

00

VAVA

SS

0

22002200

2 00

CCCUCCUH HUHUHHHCUCUCCSDVC34VC34-M-M

SDVC34SDVC34

SDV

CUH HHHHplus LEDplus LED

244 CCCUH HUHUHCUCUC

HCUCCCC

WW

VV

VV

LELE

24V DC Control Power Su24V DC Control Power Su

24V DC Control Pow24V DC Control Pow

CUHCCCCCC

CUH CU4747

C

CUHCUHHUHUH

ol Panelel

put Outputut Output//

C

48

5

6

7

8

9

10

Appendix C: Troubleshooting Suggestions and ErrorExplanations Explanations Explanations

● Connect Sync Signal Wire between the controllers and set the Slave Controller to

Sync Mode

Make sure the mains jack is live

Make sure the Input Power Cable is reliably connected

●

●

ON/OFF Controldoes not work

Beat Effect

LED screen displaysnormally, soundscan be heard fromthe vibratory feederbut no output

LED screendisplays normallybut vibratoryfeeder has nooutput or sound

No display on LEDscreen after poweron startup


Fault Phenomenon Troubleshooting Suggestions

●●●

●

●

●

Make sure the Output Power Cable is reliably connectedMake sure Output Voltage is not too lowMake sure the controller is not stopped by the ON/OFF button when the StopIndicator is onMake sure the controller is not stopped by the ON/OFF control signal when the StopIndicator is onMake sure the controller is not stopped by parameters Γ2 or Γ7 setting when the StopIndicator is onReset the controller

●●●

Make sure ON/OFF Control Signal is correctly connected to the controllerMake sure parameter Γ2, Γ7 and ∏ are set correctly as you control expectationReset the controller

●

● R

Make sure Output Frequency is not far away from resonant frequency of thevibratory feeder

eset the controller

Short-Circuit ProtectionMake sure the Output Power Cable and the vibrator electromagnet are not short circuitedDisconnect the Output Power Cable from the controller and turn on the power switchagain. If Err01 is still displayed on the LED screen, contact us for repair

●●

Overcurrent ProtectionReduce Output Voltage of the controllerMake sure armature gap of the vibrator electromagnet is not too big

●●

Overheat ProtectionPlace the controller in a well ventilated environment●

● Reserved, contact us for repair

● Reserved, contact us for repair

LED screen displays

LED screen displays

LED screen displays

LED screen displays

LED screen displays

CUH UH

CUCUCUCH

LEDLdisdbb

No display on LNo display on Lscreen after pscreen after pon startupon startup

CUHFault Phenomenonault Phenomenon

CUTroubleshootroublesho

planatioplanatioCUH CUntroller for Vibratory Feedoller for Vibratory Fee

C

CUHHUH UHU55 HHHHH

BeatBe

LED screLED scrnormalnormacan bcanthethbUH

CUHHCUCCUUU

su

N/OFF ControlOFF Controlnot worknot work

ct

yy

osoundd

●●●●●●

●●

●●

●●

Make sure the OutpMake sure the OMake sure Output VolMake sure Output VMake sure the controllMake sure the controIndicator is onndicator is onMake sure the conMake sure the coIndicator is onIndicator is onMake sure thMake sure tIndicatorIndicaReset tReset

●

CCCUCUe mains jack is liveains jack is live

put Power Cable is rput Power Cable isCUHestions and Errestions and Ernations Explannations Explan

CUTroubleshooting SuggeTroubleshooting Sugg

CUHUHHCCUHCUHUCUCUCUCUCUCUUCUCUCUCUCUCUUHCUCUCUCUUUHUHUUUHUUUHUHUUHUHCUUUUCUCUC

HUHUHUUHUHUUHHHHUHHUHUHHHHUHHUHHHUUHUHHCUCUCUCCCUCCCUCUCCCUCCCUCUCUCUCUCCCC88 CC

Diagaag

●●●

splaysplays

LED screen displaysLED screen displays

LED screen displLED screen displ

LELE

CUCCCUHUHCUSync Signal Wire between the cync Signal Wire between the

odeHHontrol Signal is correctly cntrol Signal is correctl

r Γ2, Γ7 and ∏ are set correctlr Γ2, Γ7 and ∏ are set correerr

●

● RR

Make sure Output FrequencyMake sure Output Fvibratory feederbratory

eset the controllereset the controller

cuit Pro

CCCUHUHUHH Hcted

ON/OFF button when the StopON/OFF button when the Stop

the ON/OFF control signal wheON/OFF control sign

arameters Γ2 or Γ7 settinameters Γ2 or Γ7 sett

CUH CUUHCUCUCUCCCCCCCCCCUCUCCCCCCCCCCCCCCCCCCCCCC

HHature

t ProtectionProtectionace the controller in a well vethe controller in a well

●● Reserved, contact us fReserved, contact us

●● ReservR

n displaysisplays

CCCUCUCUH UHHHsonant frequency of thonant frequency of

and the vibrator electromagnet ae vibrator electromagable from the controller and turnable from the controller and tur

yed on the LED screen, contact usyed on the LED screen, contact u

f the controllerhe controllerhe vibrator electromhe vibrator electrom

CUUCCController tontrollerCUHCUonon

CUHCU4848

CUH HUHCUHHUHCUCUHUH

C

49


Note：

Controller Reset

Step1:

Step2:

Step3:

Step4:

Press and buttons simultaneously and hold for 2 seconds to enterAdvanced Parameter Adjustment Status

Press button 16 times to switch to the parameter flashing on theLED screen

press button and hold until ----- is displayed on the LED screen

Release button to finish the Controller Reset process, U150 is displayed onthe LED screen.

▲

▲

▲

" "

" "

FUNC

FUNC

H CUHoller Resetoller Reset

p1:p1

Step2:Step2:

Step3:Step3:

Step4:Step

Press anPress aAdvanced Parameter Addvanced Parameter A

PressPressLED screenLED screen

presspress

Rethe LEDthe L

▲

" ""

""


CUH CUH ld until -ld until

to finish the Conto finish the CoCUCCCCCCCCCCUH

ultaneously and hold foultaneously and hold f

s to switch to theo switch to the

displayedisplay

CUH CUH C

UH nterter

ashing on theashing on the

creenreen

U150 is displayed on50 is displayed on

CUH CUH C

UH

CUH CU4949

C

CUHC

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UH

CUH CUH C

UH

CUH CUH C

UH

CUH CUH C

UH

CUH CUH

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Version CUH20120801Printed in August 2012

:

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